Abstract:
Provided are an X-ray detectable adhesive bandage and a method of manufacturing an X-ray detectable adhesive bandage, wherein said X-ray detectable adhesive bandage has a high sensitivity to detection by an X-ray detection device, a high sensitivity to detection by a metal detector as well as an X-ray detection device, and does not have impaired adhesive bandage elasticity. 
     An X-ray detectable adhesive bandage comprises: an adhesive protective member further comprising a substrate and an adhesive layer; and an absorbent member formed by layering, in order from bottom to top, at a prescribed site upon the adhesive protective member, a metallic foil further comprising a hot melt bonding agent layer, a long object which is formed by an X-ray detectable material being covered either in whole or in part by a covering object, and an absorbent pad. The absorbent member is configured from a prescribed metallic foil, a prescribed long object, and an absorbent pad such as a heat bonding layered body.

Description:
BACKGROUND OF THE INVENTION 
       [0001]    1. Field of the Invention 
         [0002]    The invention relates to an X-ray detectable adhesive bandage and a method of manufacturing an X-ray detectable adhesive bandage. More specifically, the invention relates to an X-ray detectable adhesive bandage detectable with high accuracy by an X-ray inspection apparatus, and to a method of manufacturing such an X-ray detectable adhesive bandage. 
         [0003]    2. Description of the Related Art 
         [0004]    In the prior art, there are proposed adhesive bandages that are detectable by a metal detector in case they are accidentally placed in food products or other products. 
         [0005]    More specifically, as shown in  FIG. 8A , a first-aid adhesive bandage  110  includes a pressure-sensitive adhesive sheet  102 , an aluminum foil  105  and a pad  103  which are provided on the pressure-sensitive adhesive sheet  102 , wherein the aluminum foil  105  is interposed between the pressure-sensitive adhesive sheet  102  and the pad  103  (see, for example, Patent Document 1). 
         [0006]    There are also proposed an X-ray detectable material-bearing fabric and an X-ray detectable adhesive bandage, which are detectable with high accuracy, and a method of manufacturing such an X-ray detectable adhesive bandage (see, for example, Patent Document 2). 
         [0007]    More specifically, as shown in  FIG. 8B , an X-ray detectable adhesive bandage  230  includes a pressure-sensitive adhesive protective member  216  including a backing  214  and a pressure-sensitive adhesive layer  212 ; and an absorbent pad  220  provided on a predetermined part of the pressure-sensitive adhesive protective member  216 , wherein the absorbent pad  220  includes an X-ray detectable material-bearing fabric  206  composed of a fabric  210  ( 210   a ,  210   b ), a cover material  204 , and X-ray detectable materials  202  arranged at predetermined intervals and entirely or partially covered with the cover material  204 . 
       PRIOR ART DOCUMENTS 
     Patent Document 
       [0000]    
       
         [Patent Document 1] JP3025216U (UTILITY MODEL, Claims) 
         [Patent Document 2] WO2008/146529A (Claims) 
       
     
       SUMMARY OF THE INVENTION 
       [0010]    Unfortunately, the first-aid adhesive bandage disclosed in Patent Document 1 (utility model) has a problem in that the aluminum foil is too thin to be detected by an X-ray inspection apparatus although it is detectable by a metal detector. 
         [0011]    The X-ray detectable material-bearing fabric disclosed in Patent Document 2 has a problem in that the manufacturing steps are relatively complicated and thus may have a low yield although it is detectable with high accuracy by an X-ray inspection apparatus. 
         [0012]    For example, there is a problem in that when a specific X-ray detectable material-bearing fabric is interwoven between two fabrics by stitch bonding, the needle may be damaged by coming into contact with the X-ray detectable material. 
         [0013]    There is also a problem in that in the cutting process, the cutting device may be damaged by coming into contact with the X-ray detectable material. 
         [0014]    Thus, the inventors have accomplished the invention based on the finding that an absorbent member composed of a specific metal foil detectable by a metal detector, a long member containing an X-ray detectable material, and an absorbent pad could have high sensitivity to a metal detector and an X-ray inspection apparatus and that such an absorbent member could be stably manufactured by heat and pressure bonding. 
         [0015]    Specifically, it is an object of the invention to provide an X-ray detectable adhesive bandage having high detection sensitivity not only to a metal detector commonly used but also to an X-ray inspection apparatus, and to provide a method for efficiently manufacturing such an X-ray detectable adhesive bandage. 
         [0016]    To solve the above problems, the invention provides an X-ray detectable adhesive bandage including: a pressure-sensitive adhesive protective member (a protective member having a pressure-sensitive adhesive layer) including a backing and a pressure-sensitive adhesive layer; and an absorbent member that is provided on a predetermined part of the pressure-sensitive adhesive protective member and includes a metal foil provided with a hot melt adhesive layer, a long member including a cover material and an X-ray detectable material entirely or partially covered with the cover material, and an absorbent pad, wherein the metal foil, the long member, and the absorbent pad are sequentially stacked from bottom to top, wherein the absorbent member includes a heat and pressure bonded laminate of the metal foil provided with the hot melt adhesive layer, the long member including the cover material and the X-ray detectable material entirely or partially covered with the cover material, and the absorbent pad. 
         [0017]    Specifically, the X-ray detectable material entirely or partially covered with the cover material is prevented from moving from the placed position and is less likely to drop out or move. Thus, when the X-ray detectable adhesive bandage, which may include an X-ray detectable material-bearing fabric according to the invention, is accidentally placed in a packaged metal product, it could be accurately detected by an X-ray inspection apparatus although it is not detectable by a metal detector. 
         [0018]    The long member having the X-ray detectable material covered with the cover material, the specific metal foil, and the absorbent pad are sequentially stacked to form an absorbent member, and the absorbent member is subjected to heat and pressure bonding. This makes it possible to omit a process involving the use of an interweaving apparatus and to effectively prevent a cutting device from being damaged by the X-ray detectable material. 
         [0019]    In addition, the absorbent member having the specific metal foil has good sensitivity not only to an X-ray inspection apparatus but also to a metal detector, which makes it possible to further increase the sensitivity for detection of the contamination of food products or other products. 
         [0020]    In the invention, the heat and pressure bonded laminate corresponds to the absorbent member obtained by sequentially stacking the specific metal foil, the specific long member, and the absorbent pad and subjecting the stacked materials to heat and pressure bonding. 
         [0021]    In forming the X-ray detectable adhesive bandage of the invention, the X-ray detectable material is preferably linear and preferably has an average length in the range of 0.3 mm to 10 mm and an average thickness in the range of 0.1 mm to 3 mm. 
         [0022]    According to this feature, a desired level of sensitivity to an X-ray inspection apparatus could be obtained. 
         [0023]    According to this feature, the X-ray detectable material is easily aligned in a plane direction, so that foreign body sensation could be reduced during use and degradation in the function of the absorbent pad could be minimized. 
         [0024]    In forming the X-ray detectable adhesive bandage of the invention, the X-ray detectable material is preferably a coiled material. 
         [0025]    According to this feature, damage to a cutting part during a cutting process could be further reduced without loss of sensitivity to an X-ray inspection apparatus. 
         [0026]    In forming the X-ray detectable adhesive bandage of the invention, the metal foil is preferably made of aluminum. 
         [0027]    According to this feature, a relatively-light, X-ray detectable adhesive bandage could be manufactured at low cost without loss of sensitivity to a metal detector. 
         [0028]    In forming the X-ray detectable adhesive bandage of the invention, the metal foil preferably has a thickness in the range of 1 μm to 30 μm. 
         [0029]    According to this feature, the adhesive bandage could keep stretch ability intact, have good comfortableness, keep intact sensitivity to a metal detector, and have formability. 
         [0030]    In forming the X-ray detectable adhesive bandage of the invention, the hot melt adhesive is preferably at least one selected from the group consisting of an olefin-based hot melt adhesive, a polyethylene-based hot melt adhesive, a polypropylene-based hot melt adhesive, a polyester-based hot melt adhesive, and a polyvinyl chloride-based hot melt adhesive. 
         [0031]    According to this feature, the specific metal foil, the specific long member, and the absorbent pad could be easily heat and pressure bonded, so that the resulting product could be less irritant to the skin and have good comfortableness. 
         [0032]    In forming the X-ray detectable adhesive bandage of the invention, the backing in the pressure-sensitive adhesive protective member is preferably colored. 
         [0033]    According to this feature, the adhesive bandage is easy to be visually identified even when accidentally placed in food products or other products. In particular, even when only the backing out of the pressure-sensitive adhesive protective member is accidentally placed in food products or other products, the backing could be easily visually detected. 
         [0034]    Another aspect of the invention is a method of manufacturing an X-ray detectable adhesive bandage including: a pressure-sensitive adhesive protective member including a backing and a pressure-sensitive adhesive layer; and an absorbent member that is provided on a predetermined part of the pressure-sensitive adhesive protective member and includes a metal foil provided with a hot melt adhesive layer, a long member including a cover material and an X-ray detectable material entirely or partially covered with the cover material, and an absorbent pad, which are sequentially stacked from bottom to top, the method including the steps of: stacking a metal foil, a long member including a cover material and X-ray detectable materials entirely or partially covered with the cover material, and an absorbent pad to form an absorbent member; heating the absorbent member to integrate the stacked materials and to form a heat and pressure bonded laminate; cutting the heat and pressure bonded laminate into pieces of a predetermined size; forming a pressure-sensitive adhesive protective member; and laminating the heat and pressure bonded laminate onto a predetermined part of the pressure-sensitive adhesive protective member. 
         [0035]    Specifically, the specific metal foil, the specific long member, and the absorbent pad are laminated and integrated by heat and pressure bonding, which makes possible to successfully fix the X-ray detectable material onto a predetermined part and to successfully manufacture the adhesive bandage without damage to a cutting device during a cutting process, so that the yield could be increased. 
         [0036]    In addition, there is no need to interweave the specific long member into the absorbent pad, so that the process could be simplified and the productivity could be improved. 
         [0037]    Also, because of the integration of the specific metal foil and the absorbent pad, an X-ray detectable adhesive bandage without loss of its stretchability could be efficiently obtained. 
         [0038]    In addition, the combination of the X-ray detectable material and the specific metal foil could form an X-ray detectable adhesive bandage capable of well responding not only to an X-ray inspection apparatus but also to a metal detector. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0039]      FIGS. 1A to 1B  are diagrams for illustrating an aspect of an X-ray detectable adhesive bandage; 
           [0040]      FIGS. 2A to 2B  are diagrams for illustrating an aspect of a long member containing X-ray detectable materials arranged at predetermined intervals and covered with a cover material; 
           [0041]      FIGS. 3A to 3D  are diagrams provided for illustrating another aspect of a long member containing X-ray detectable materials arranged at predetermined intervals and covered with a cover material; 
           [0042]      FIGS. 4A to 4C  are diagrams provided for illustrating a preferred aspect of the long member shown in  FIG. 2B ; 
           [0043]      FIGS. 5A to 5C  are diagrams provided for illustrating preferred aspects of the X-ray detectable adhesive bandage; 
           [0044]      FIG. 6  is a diagram provided for illustrating a method of manufacturing an X-ray detectable adhesive bandage; 
           [0045]      FIG. 7  is a diagram provided for illustrating an X-ray inspection apparatus; and 
           [0046]      FIGS. 8A to 8B  are diagrams provided for illustrating a conventional metal detectable adhesive bandage and a conventional X-ray detectable adhesive bandage. 
       
    
    
     DETAILED DESCRIPTION OF THE EMBODIMENTS 
     First Embodiment 
       [0047]    As shown in  FIGS. 1A to 1B , a first embodiment of the invention is an X-ray detectable adhesive bandage  20  including: a pressure-sensitive adhesive protective member  30  including a backing  28  and a pressure-sensitive adhesive layer  26 ; and an absorbent member  40  that is provided on a predetermined part of the pressure-sensitive adhesive protective member and includes a metal foil  22  provided with a hot melt adhesive layer, a long member  10  including a cover material  14  and an X-ray detectable material  12  entirely or partially covered with the cover material  14 , and an absorbent pad  24 , wherein the metal foil  22 , the long member  10 , and the absorbent pad  24  are sequentially stacked from bottom to top, wherein the absorbent member  40  includes a heat and pressure bonded laminate of the metal foil  22  provided with the hot melt adhesive layer, the long member  10  including the cover material and the X-ray detectable material entirely or partially covered with the cover material, and the absorbent pad  24 . 
         [0048]    Hereinafter, the X-ray detectable adhesive bandage  20  of the first embodiment will be more specifically described for each constitutional feature. 
         [0000]    1. Absorbent member 
       1-1. Absorbent pad 
       [0049]    The absorbent pad constituting the X-ray detectable adhesive bandage may be of any type. For example, it is preferably an absorbent pad obtained by a dry staple method, an air lay process, a melt-blowing process, a needle punch method, a stitch bonding method, or a spun lace method. 
         [0050]    For example, such an absorbent pad is preferably in the form of a nonwoven fabric composed of entangled short fibers with a length of 15 to 100 mm and a diameter of 6 to 100 μm. 
         [0051]    Alternatively, for example, it is preferably in the form of a nonwoven fabric composed of long fibers with a length of 1 m to 100 m or more and short fibers with a length of 15 to 100 mm, which are entangled together. 
         [0052]    The thickness of the absorbent pad (not being compressed) is preferably in the range of 0.1 to 10 mm, more preferably in the range of 0.5 to 3 mm, even more preferably in the range of 1 to 2.5 mm. 
         [0053]    This is because if the absorbent pad has such a thickness, there could be a good balance between desired handleability and easiness of bonding to the long member and the metal foil. 
         [0054]    Specifically, if the absorbent pad is too thin, its ability to absorb blood, body fluid or the like will be lowered, so that the function of the adhesive bandage may be degraded. In addition, if the absorbent pad is too thin, the X-ray detectable material may irritate the skin, so that comfortableness may decrease. On the other hand, if the absorbent pad is too thick, the absorbent pad may rather have lower handleability or lower adhesion to the metal foil and the long member. 
         [0055]    The weight of the absorbent pad (not being compressed) is preferably in the range of 10 to 500 g/m 2 , more preferably in the range of 30 to 300 g/m 2 , even more preferably in the range of 50 to 150 g/m 2 . 
         [0056]    This is because if the absorbent pad has such a weight, there could be a good balance between desired handleability and easiness of bonding to the long member and the metal foil. 
         [0057]    Specifically, if the absorbent pad is too light, the handleability of the absorbent pad may decrease, or the X-ray detectable material may irritate the skin, so that comfortableness may decrease. On the other hand, if the absorbent pad is too heavy, the handleability of the absorbent pad may rather decrease, or comfortableness may decrease. 
         [0058]    The bulk density of the absorbent pad (not being compressed) is preferably in the range of 0.005 to 0.5 g/cm 3 , more preferably in the range of 0.01 to 0.1 g/cm 3 , even more preferably in the range of 0.05 to 0.08 g/cm 3 . 
         [0059]    This is because if the absorbent pad has such a bulk density, there could be a good balance between desired handleability and easiness of bonding to the long member and the metal foil. 
         [0060]    Specifically, if the absorbent pad has a lower bulk density, the absorbent pad may have lower handleability or may have difficulty in absorbing blood or body fluid, and easiness of boding to the long member and the metal foil may decrease. On the other hand, if the absorbent pad has too high a bulk density, the absorbent pad may rather have lower handleability or difficulty in absorbing blood or body fluid. 
         [0061]    The absorbent pad is preferably made of at least one type of fibers selected from the group consisting of polyester fibers, polyamide fibers, polyacrylic fibers, polyolefin fibers, polyurethane fibers, polyacetal fibers, polyvinyl alcohol fibers, rayon fibers, cotton fibers, pulp fibers, and polyvinyl chloride fibers. 
         [0062]    This is because the absorbent pad made of any of these types of fibers is easy to be stably manufactured and has high ability to absorb body fluid and blood. 
         [0063]    Particularly when the absorbent pad is made of a nonwoven fabric of a blend of rayon and polyester fibers, a blend of polypropylene and polyethylene fibers, or a blend of polypropylene and polyester fibers, a good balance between lightness and durability could be achieved. 
         [0064]    The absorbent pad is preferably a laminate having a network film on the side to be in contact with the skin. 
         [0065]    This is because such a network film could prevent the absorbent pad from excessively adhering to the skin or prevent the absorbent pad from solidifying together with body fluid or blood and adhering to wound, and because such a network film is sanitary. 
         [0066]    Such a network film is preferably made of at least one film selected from the group consisting of a polyethylene film, a polypropylene film, a polyester film, a polyamide film, a polyacrylic film, a polyolefin film, a polyurethane film, a polyacetal film, a polyvinyl alcohol film, a rayon film, a cotton film, a pulp film, and a polyvinyl chloride film. 
         [0067]    This is because the network film made of such a type of film is easy to be stably manufactured and could make the product less irritant to the skin. 
         [0068]    In particular, a sanitary network film could be obtained with high productivity if a polyethylene film or a polypropylene film is used to form the network film. 
       1-2. Long Member 
       [0069]    As shown in  FIGS. 2A to 2B  or  FIGS. 3A to 3D , X-ray detectable materials  12  may be arranged at predetermined intervals (L) and entirely or partially covered with a cover material  14  ( 14   a ,  14   b ). 
         [0070]      FIG. 2A  is a schematic cross-sectional view of a long member  10 , which includes substantially cylindrical (hereinafter, also called “linear”) X-ray detectable materials  12  arranged at regular intervals and surrounded and covered with a cover material  14  including a plurality of fibrous materials (fibers). 
         [0071]      FIG. 2B  is a schematic cross-sectional view of a long member  10 , which includes substantially coiled X-ray detectable materials  12  arranged at regular intervals and surrounded and covered with a cover material  14  including a plurality of fibrous materials (fibers). 
         [0072]    In some cases, X-ray materials  12  covered with a cover material  14  including a plurality of fibrous materials (fibers) as shown in  FIGS. 2A to 2B  may tend to drop out of the cover material. In a preferred mode, therefore, as shown in  FIGS. 4A to 4C , a film  14   d  formed (folded) in a V shape is first prepared, and X-ray detectable materials  12  are placed at the bottom of the V-shaped film  14   d , and surrounded and covered in this state with a cover material  14  including fibrous materials (fibers). 
         [0073]      FIG. 3A  is a schematic cross-sectional view of a long member  10 , which includes substantially cylindrical X-ray detectable materials  12  arranged at regular intervals and covered from upper and lower sides with a cover material  14 . 
         [0074]      FIG. 3B  is a schematic cross-sectional view of a long member  10 , which includes substantially rectangular X-ray detectable materials  12  that are arranged at regular intervals, disposed on a cover material-forming base  14   a  as a part of a cover material  14 , and covered from upper side with a cover material-forming resin  14   b  as an another part of the cover material  14 . 
         [0075]    Examples of the form of the cover material-forming base  14   a  shown in  FIG. 3B  include, but are not limited to, a PET film, an acrylic film, a urethane foam, a polyethylene foam, a silicone rubber, a natural rubber, etc. 
         [0076]      FIG. 3C  is a schematic cross-sectional view of a long member  10 , which includes substantially flat (elliptical) X-ray detectable materials  12  that are arranged at regular intervals, embedded in the interior  14   c  of a cover material-forming base  14   a  as a part of a cover material  14 , and covered from upper side with a cover material-forming resin  14   b  as another part of the cover material  14 . 
         [0077]      FIG. 3D  is a schematic cross-sectional view of a long member  10 , which includes substantially cylindrical X-ray detectable materials  12  that are embedded in the interior  14   c  of a cover material  14 , specifically, partially covered with the cover material  14 , and are arranged at regular intervals in such a manner that their longitudinal directions are perpendicular to the interval. 
         [0078]    Specifically, as shown in  FIGS. 2A to 2B  or  FIGS. 3A to 3D , X-ray detectable materials  12  may be covered with a cover material to form a desired long member  10 , and the long member  10  may be cut into pieces of a predetermined length, so that long members with no variations in sensitivity to an X-ray inspection apparatus could be obtained. 
         [0079]    In addition, when X-ray detectable materials are discontinuously arranged at regular intervals to form a specific long member  10  as shown in  FIGS. 2A to 2B  or  FIGS. 3A to 3D , the resulting X-ray-detectable-material-containing long member could form adhesive bandages without loss of stretchability. 
         [0080]    In the specific long member  10  shown in  FIG. 2A  or other drawings, the X-ray detectable materials  12  covered with the cover material  14  are preferably arranged at regular intervals (L) ranging from 3 to 60 mm. 
         [0081]    Thus, the specific distance (pitch) between adjacent X-ray detectable materials incorporated in the long member is preferably in the range of 3 to 60 mm, more preferably in the range of 5 to 40 mm, even more preferably in the range of 8 to 30 mm. 
         [0082]    This is because such a structure makes it possible to effectively prevent X-ray detectable materials from deviating from a predetermined position. 
         [0083]    In addition, when there is such a distance between adjacent X-ray detectable materials, not only the position where X-ray detectable materials exist but also the position where no X-ray detectable materials exist could be accurately identified. This makes it possible to prevent the cutting machine from being damaged. 
         [0084]    Thus, dislocation of X-ray detectable materials could be effectively prevented by laminating such a specific long member, a specific metal foil, and an absorbent pad. As a result, the sensitivity to an X-ray inspection apparatus could be reliably increased. 
         [0085]    In addition, when such X-ray detectable materials are arranged at regular intervals, namely, when interruptions are provided, the resulting long member could form adhesive bandages without loss of stretchability. 
       1-3. X-Ray Detectable Material 
     (1) Shape 
       [0086]    The shape of the X-ray detectable material is preferably, but not limited to, a linear shape as shown in  FIG. 2A . 
         [0087]    Such linear X-ray detectable materials preferably have an average length in the range of 0.3 to 10 mm and an average thickness (diameter) in the range of 0.1 to 3 mm. 
         [0088]    Such a structure makes it possible to provide higher detection sensitivity to an X-ray inspection apparatus or a metal detector and to minimize the reduction in the function of the absorbent pad. 
         [0089]    Thus, the average length of linear X-ray detectable materials incorporated in the long member is more preferably in the range of 0.5 to 5 mm, even more preferably in the range of 1 to 3 mm. 
         [0090]    The average thickness is more preferably in the range of 0.5 to 2.5 mm, even more preferably in the range of 1 to 2 mm. 
         [0091]    The linear X-ray detectable material is also preferably coiled as shown in  FIG. 2B . 
         [0092]    Such a structure will not reduce the detection sensitivity to an X-ray inspection apparatus or a metal detector and could prevent a cutting part from being damaged even when the material accidentally comes into contact with the cutting part during the cutting process. 
         [0093]    The X-ray detectable materials may have a spherical shape, a rectangular shape as shown in  FIG. 3B , or a flat shape as shown in  FIG. 3C . 
         [0094]    For example, spherical X-ray detectable materials preferably have an average particle size (sphere equivalent diameter) in the range of 0.1 to 3 mm. 
         [0095]    This is because if the average particle size of such X-ray detectable materials is below 0.1 mm, the detection sensitivity to an X-ray inspection apparatus or a metal detector may significantly decrease, and on the other hand if the average particle size of such X-ray detectable materials is above 3 mm, the use of them for the absorbent pad or the like of an adhesive bandage may increase foreign body sensation, or it may become difficult to stably incorporate them into the long member. 
         [0096]    Thus, the average particle size (sphere equivalent diameter) of X-ray detectable materials incorporated in the long member is more preferably in the range of 0.1 to 2 mm, even more preferably in the range of 0.2 to 1 mm, most preferably in the range of 0.3 to 0.8 mm. 
       (2) Type 
       [0097]    The X-ray detectable material is preferably at least one selected from the group consisting of steel (including a steel-plated material), stainless steel, aluminum, copper, silver, solder (including lead-free solder), nickel, bone, a rubber piece, a resin piece, a glass, a shell, and a stone. 
         [0098]    This is because the use of such X-ray detectable materials makes it possible to further increase the sensitivity to an X-ray inspection apparatus and also makes it possible to provide relatively inexpensive X-ray detectable adhesive bandages easily workable into desired shapes. 
         [0099]    Even nonmetallic materials such as bone, rubber piece, resin piece, glass, shell, and stone, which have certain densities, could not only provide certain sensitivity to an X-ray inspection apparatus but also form X-ray detectable adhesive bandages while being lightweight. 
         [0100]    It will be understood that steel (including a steel-plated material) is more preferably used as the X-ray detectable material because steel is ferromagnetic so that it could provide higher sensitivity to an X-ray inspection apparatus or a metal detector, and is also inexpensive. 
         [0101]    Although steel is usually rust-prone depending on environmental conditions, it has been found that steel in the long member according to the invention hardly rusts because it is surrounded by the cover material under dry conditions. 
         [0102]    A steel-plated material or stainless steel is also preferably used because it could give a certain level of sensitivity to an X-ray inspection apparatus or a metal detector over a long period of time and could be easily incorporated into the long member. 
         [0103]    On the other hand, to minimize foreign body sensation for the adhesive bandage, at least one of bone, rubber piece, resin piece, glass, shell, stone, aluminum, copper, silver, and solder (including lead-free solder) is preferably used. This is because any of these nonmetallic or metallic materials could be easily deformed by application of a certain level of force. 
         [0104]    As a non-limiting example, the substantially rectangular X-ray detectable materials  12  shown in  FIG. 3B  could be obtained by cutting a metal foil or plate with a uniform thickness into pieces of a predetermine width. 
         [0105]    For example, the flat (elliptical) X-ray detectable materials  12  shown in  FIG. 3C  are preferably formed by flattening relatively-soft spherical particles of aluminum, copper, steel, solder, or other materials. 
         [0106]    For example, the substantially cylindrical X-ray detectable materials  12  shown in  FIG. 3D  are preferably formed by cutting a metal wire into pieces of a predetermined length. 
       1-4. Cover Material 
       [0107]    The cover material is preferably made of at least one type of fibers selected from the group consisting of polyester fibers, polyamide fibers, polyacrylic fibers, polyolefin fibers, polyurethane fibers, polyacetal fibers, polyvinyl alcohol fibers, rayon fibers, cotton fibers, pulp fibers, and polyvinyl chloride fibers. 
         [0108]    This is because such fibers could be easily turned into a fabric and also allows easy detection of the X-ray detectable materials. 
         [0109]    For example, the fibers preferably have a thickness (diameter) in the range of 10 to 100 μm. A plurality of such fibers may be gathered and twisted. 
       1-5. Metal Foil 
     (1) Type 
       [0110]    Examples of metal used to form the specific metal foil include, but are not limited to, aluminum, copper, stainless steel, nickel, tin, gold, silver, titanium, etc. 
         [0111]    This is because such types of metals could formmetal foils detectable with high sensitivity by a metal detector. 
         [0112]    In particular, the metal is preferably aluminum. 
         [0113]    This is because the metal foil made of aluminum is inexpensive, has high productivity, and could form an X-ray detectable adhesive bandage without excessive loss of stretchability when it is laminated together with the absorbent pad and the specific long member. 
       (2) Thickness 
       [0114]    The thickness of the metal foil is preferably in the range of 1 to 30 μm. 
         [0115]    This is because if the metal foil has a thickness of below 1 μm, it may have significantly low sensitivity to a metal detector or may be easily ruptured. On the other hand, if the metal foil has a thickness of above 30 μm, the metal foil may be difficult to be stably laminated to the specific long member and the absorbent pad, or foreign body sensation may increase. 
         [0116]    Thus, the thickness of the metal foil is more preferably in the range of 2 to 30 μm, even more preferably in the range of 10 to 20 μm. 
       (3) Adhesive Layer 
       [0117]    In the invention, the metal foil is characterized in that at least one side of the metal foil is provided with a hot melt adhesive layer. 
         [0118]    This is because such a structure could be easily bonded to the specific long member and the absorbent pad to form an integrated member and could provide high productivity. 
         [0119]    For example, the hot melt adhesive is preferably, but not limited to, at least one selected from the group consisting of an olefin-based hot melt adhesive, a polyethylene-based hot melt adhesive, a polypropylene-based hot melt adhesive, a polyester-based hot melt adhesive, and a polyvinyl chloride-based hot melt adhesive. 
         [0120]    This is because such an adhesive could easily bond the specific long member and the absorbent pad to form an integrated member, and is less irritant to the skin. 
         [0121]    The hot melt adhesive layer is preferably applied so as to have a thickness in the range of 0.001 to 0.5 μm. 
       2. Pressure-Sensitive Adhesive Protective Member 
     2-1. Backing 
     (1) Type 
       [0122]    Examples of the type of the backing as a component of the pressure-sensitive adhesive protective member (protective member with pressure-sensitive adhesive) in the X-ray detectable adhesive bandage include, but are not limited to, a polyurethane film, a polyester film, a polyvinyl chloride film, an olefin film, a polycarbonate film, a polysulfone film, a polyphenylene sulfide film, a polyimide film, a paper sheet, a fiber-filled film, etc. 
         [0123]    The backing may be in any form, such as a mesh material, a woven fabric, or a nonwoven fabric. 
         [0124]    For example, a mesh material or a nonwoven fabric used as the backing could form a pressure-sensitive adhesive protective member having an excellent level of cushioning characteristics or air permeability. On the other hand, when a woven fabric of polyester fibers or the like is used as the backing, the water-vapor permeability could be kept low, and the resulting pressure-sensitive adhesive protective member could have good followability to the movement of a finger. 
         [0125]    The backing also preferably has an elongation percentage (according to JIS L 1096, hereinafter the same shall apply) of 120% or more, more preferably in the range of 150 to 500%, even more preferably in the range of 200 to 400%, so that good sense of use could be obtained. 
         [0126]    However, when the backing to be used has such a high elongation percentage and is difficult to handle, a reinforcing release member is preferably provided on the surface of the backing. 
         [0127]    This is because such a reinforcing release member could improve handling ability so that the backing could be easily bonded to the desired place and such a reinforcing release member could also function as a release sheet during manufacture. 
         [0128]    The reinforced release member preferably contains a reinforcing material such as fibers or an inorganic filler, or is preferably made thicker than a common release member, or is preferably increased in mechanical strength, since it performs not only as a release member but also as a reinforcing member. 
       (2) Thickness 
       [0129]    The thickness of the backing is preferably in the range of 5 to 2,000 μm. 
         [0130]    This is because if the backing has a thickness of below 5 μm, it may have lower mechanical strength or lower handleability and thus may be unsuitable for use in the pressure-sensitive adhesive protective member and other applications. 
         [0131]    On the other hand, if the backing has a thickness of above 2,000 μm, it may be too thick and rather difficult to handle, and it may easily peel off from the skin or other parts when used as a component of the pressure-sensitive adhesive protective member or the like. 
         [0132]    Thus, the thickness of the backing is more preferably in the range of 10 to 1,000 μm, even more preferably in the range of 15 to 500 μm. 
       (3) Cushion Layer 
       [0133]    Although not shown, a cushion layer made of a nonwoven fabric or the like is preferably provided between the pressure-sensitive adhesive layer and the backing. 
         [0134]    This is because such a cushion layer has high ability to protect the affected part and could provide good sense of use. When bumps and dents are formed on the surface of the pressure-sensitive adhesive layer, the cushion layer could also be effective in protecting the shape. 
         [0135]    An example of the cushion layer made of a nonwoven fabric or the like is preferably as follows. 
         [0000]    Type: urethane resin, polypropylene resin, polyester resin, or vinyl chloride resin 
       Thickness: 10 to 100 μm 
       [0136]    Weight per area: 10 to 100 g/m 2    
       (4) Water-Repellent-Treated Layer 
       [0137]    Although not shown, a water-repellent-treated layer (including a sizing layer) is preferably provided on the surface of the backing. 
         [0138]    This is because not only such a layer could easily prevent liquid substances from infiltrating from outside during kitchen work or outside work or in the field of medical care and thus is preferable for sanitary environment, but also such a layer could effectively prevent the pressure-sensitive adhesive protective member from peeling off. 
         [0139]    For example, such a water-repellent-treated layer is preferably made of fluororesin, silicone resin, or the like and preferably has a thickness in the range of 0.01 to 5 μm. 
       (5) Water-Vapor Permeability 
       [0140]    The backing preferably has a water-vapor permeability in the range of 100 to 2,000 g/m 2 ·24 hours as measured according to JIS Z 0208. 
         [0141]    This is because when the water-vapor permeability of the backing is controlled in this manner, not only liquid substances could be easily prevented from infiltrating from outside during kitchen work or outside work or in the field of medical care, which is preferable for sanitary environment, but also the pressure-sensitive adhesive protective member could be effectively prevented from peeling off. 
         [0142]    Thus, the water-vapor permeability of the backing is more preferably in the range of 200 to 1,700 g/m 2 ·24 hours, even more preferably in the range of 400 to 1,400 g/m 2 ·24 hours. 
         [0143]    However, when the applications are partially limited, a nonwoven fabric is used as the backing, or open pores are formed in the backing or the pressure-sensitive adhesive layer, the baking preferably has a water-vapor permeability of 1,500 g/m 2 ·24 hours or more as measured according to JIS Z 0208. 
       (6) Identification Mark and Decorative Layer 
       [0144]    Although not shown, an identification mark or a decorative layer is preferably provided on the surface of the backing. 
         [0145]    This is because when numeric characters, Chinese characters, pictographs, Braille characters, or other marks are provided, an optimum-sized pressure-sensitive adhesive protective member could be clearly and immediately selected, so that the usability of the pressure-sensitive adhesive protective member could be significantly improved. 
         [0146]    Also when such a decorative layer is provided to show numerical patterns, Chinese character patterns, pictograph patterns, photographic patterns, or other patterns, the pressure-sensitive adhesive protective member could have not only improved usability but also higher aesthetic properties. In particular, a fluorescent agent-containing decorative layer could also increase nighttime visibility. 
       (7) Metal Particle 
       [0147]    As shown in  FIG. 5A , a backing-forming material  32  as a component of the backing  28  in the pressure-sensitive adhesive protective member  30  preferably contains metal particles  34 . 
         [0148]    This is because such metal particles in the backing could act together with the metal foil and the X-ray detectable material in the absorbent member. Specifically, a metal detector or an X-ray inspection apparatus will be more sensitive to the X-ray detectable adhesive bandage having such an absorbent member and such a pressure-sensitive adhesive protective member. 
         [0149]    Even when food products or other products are contaminated by only the backing out of the pressure-sensitive adhesive protective member, the backing containing such metal particles could be detected by a metal detector or an X-ray inspection apparatus under certain conditions. 
         [0150]    Although such metal particles may be of any type, for example, such metal particles are preferably made of at least one metal species selected from the group consisting of steel, stainless steel, aluminum, copper, silver, solder (including lead-free solder), and nickel. 
         [0151]    This is because according to this feature, the sensitivity of the backing to an X-ray inspection apparatus or a metal detector could be reliably increased, and a relatively inexpensive backing or adhesive bandage could be provided. 
         [0152]    It is more preferred to use steel particles, which are inexpensive and have high sensitivity to an X-ray inspection apparatus and a metal detector. 
         [0153]    On the other hand, it is also preferred to use aluminum particles, which are lighter, easily dispersible, and inexpensive, and has relatively high sensitivity to an X-ray inspection apparatus and a metal detector. 
         [0154]    The metal particles in the backing may be of the same type as the metal in the specific long member. However, if the metal particles in the backing are of a different type from the metal in the specific long member, the sensitivity of the whole adhesive bandage to an X-ray inspection apparatus or a metal detector could be more reliably increased. 
         [0155]    The metal particles preferably have an average particle size in the range of 0.5 to 30 μm. 
         [0156]    This is because if the metal particles have an average particle size of below 0.5 μm, they may easily aggregate to have significantly lower sensitivity to an X-ray inspection apparatus or a metal detector. On the other hand, if the metal particles have an average particle size of above 30 μm, they may be difficult to be uniformly dispersed in the backing, or may significantly reduce the flexibility or stretchability of the backing. 
         [0157]    Thus, the average particle size of the metal particles is more preferably in the range of 3 to 25 μm, even more preferably in the range of 5 to 20 μm. 
         [0158]    The content of the metal particles in the backing is preferably in the range of 0.1 to 30% by weight when the total amount of the backing is normalized as 100% by weight. 
         [0159]    This is because if the content of the metal particles is below 0.1% by weight, they may have significantly lower sensitivity to an X-ray inspection apparatus or a metal detector. On the other hand, if the content of the metal particles is above 30% by weight, they may be significantly difficult to be dispersed in the backing. 
         [0160]    Thus, the content of the metal particles in the backing is more preferably in the range of 1 to 20% by weight, even more preferably in the range of 3 to 15% by weight when the total amount of the backing is normalized as 100% by weight. 
       (8) Shape 
       [0161]    The shape of the pressure-sensitive adhesive protective member is preferably, but not limited to, a long rounded shape as shown in  FIG. 1A . 
         [0162]    This is because such a shape is convenient to use and could effectively prevent peeling. 
         [0163]    Alternatively, as shown in  FIG. 5B , the pressure-sensitive adhesive protective member may have such a shape that it could be easily wound on a fingertip, or as shown in  FIG. 5C , it may be of a patch type. 
       2-2. Pressure-Sensitive Adhesive Layer 
     (1) Type 
       [0164]    The pressure-sensitive adhesive layer may be made of any type of pressure-sensitive adhesive. For example, an organopolysiloxane pressure-sensitive adhesive as described below or an acrylic pressure-sensitive adhesive as described below is preferably used. 
         [0165]    In the invention, first, an organopolysiloxane pressure-sensitive adhesive is preferably used as a main component of the pressure-sensitive adhesive layer. 
         [0166]    This is because the organopolysiloxane pressure-sensitive adhesive used could exhibit moderate adhesion to the skin while it could also improve creep resistance, water resistance, and chemical resistance. 
         [0167]    A typical example of such an organopolysiloxane pressure-sensitive adhesive is preferably organopolysiloxane obtained by performing dehydration condensation of a composition containing silicone resin of the structure represented by general formula (1) or (2). 
         [0000]    
       
                 
         
             
             
         
       
     
         [0168]    (In the general formula (1), R 1  and R 2  each represent a methyl group or a phenyl group and n represents an integer of 10 to 10,000.) 
         [0000]    
       
                 
         
             
             
         
       
     
         [0169]    (In the general formula (2), m represents an integer of 10 to 10,000.) 
         [0170]    In the general formula (1), where R 1  and R 2  are each a methyl group or a phenyl group, the molar ratio of the methyl group to the phenyl group (methyl group/phenyl group) is preferably in the range of 25/75 to 98/2, more preferably in the range of 85/15 to 95/5 so that heat resistance and the like could be imparted to the pressure-sensitive adhesive layer. 
         [0171]    Generally, in view of workability in forming the pressure-sensitive adhesive on a fabric, the numbers n and m in the general formulae (1) and (2) are preferably adjusted in such a manner that the pressure-sensitive adhesive could have a viscosity of 2,000 to 200,000 cP (25° C.). 
         [0172]    An acrylic pressure-sensitive adhesive is also preferably used as an additive (10 to 30% by weight of the total amount) to the organopolysiloxane pressure-sensitive adhesive or independently (100% by weight of the total amount) of the organopolysiloxane pressure-sensitive adhesive. 
         [0173]    This is because the use of such an acrylic pressure-sensitive adhesive makes it possible to easily improve tackiness without reducing the cohesion of the pressure-sensitive adhesive. 
         [0174]    A typical example of the type of such an acrylic pressure-sensitive adhesive is an acrylic copolymer composed mainly of 2-ethylhexyl acrylate and butyl acrylate. 
         [0175]    To form such a copolymer, the weight ratio of 2-ethylhexyl acrylate to butyl acrylate may be adjusted to 20:80 to 80:20, preferably 20:80 to 40:60. If the content of 2-ethylhexyl acrylate is too low, the cohesion of the pressure-sensitive adhesive may increase, so that the adhesion may decrease. On the other hand, if the content of 2-ethylhexyl acrylate is too high, the cohesion of the pressure-sensitive adhesive may decrease too much, so that the adhesion may tend to decrease. 
         [0176]    Acrylamide or vinyl carboxylic acid may also be used as a monomer component in an amount of at most 5% by weight based on the total amount of the monomer components used to form the acrylic pressure-sensitive adhesive. 
         [0177]    Also in view of compatibility with the organopolysiloxane pressure-sensitive adhesive, the acrylic pressure-sensitive adhesive preferably has a viscosity in the range of 500 to 20,000 cP (25° C.) 
       (2) Additive 
       [0178]    A preparation (drug) may be added as an additive to the pressure-sensitive adhesive composition so that the desired drug efficacy could be achieved. The type of such a preparation is typically, but not limited to, one or a combination of two or more of an anti-inflammatory agent, an antiphlogistic analgetic, a coronary vasodilator, an asthma agent, an antihypertensive agent, an antihistamine agent, a tranquilizer, an antibiotic, an anesthetic, a vitamin compound, etc. 
         [0179]    For example, the content of the preparation is preferably in the range of 0.1 to 30% by weight based on the total amount of the pressure-sensitive adhesive composition, although it depends on the type of the preparation or the intended use of the pressure-sensitive adhesive composition. 
         [0180]    Any of various additives are preferably added to the pressure-sensitive adhesive composition. For example, such an additive may be one or a combination of two or more of an antioxidant, a viscosity modifier, an ultraviolet absorbing agent, a masking agent, a plasticizer, a wax, a coloring agent, an inorganic filler, an organic filler, an extender, a coupling agent, etc. 
       (3) Peel Strength 
       [0181]    The peel strength of the adhesive bandage according to JIS Z 0237 (mode: T mode peeling, adherend: stainless steel plate, peel rate: 300 mm/minute) is preferably in the range of 3 to 20 N/25 mm. 
         [0182]    This is because if the peel strength is below 3 N/25 mm, the adhesive bandage may easily peel off from the skin or the like and may be poorly functional. On the other hand, if the peel strength is above 20 N/25 mm, the pressure-sensitive adhesive may be difficult to remove from the skin or may be so irritant to the skin that discomfort may occur during use. 
         [0183]    Thus, the peel strength of the adhesive bandage is more preferably in the range of 5 to 15 N/25 mm, even more preferably in the range of 9 to 12 N/25 mm. 
         [0184]    The peel strength of the adhesive bandage could be adjusted by appropriately selecting the type, thickness, or other properties of the pressure-sensitive adhesive used to form the pressure-sensitive adhesive layer. The following is an aspect of the pressure-sensitive adhesive layer preferred for the control of the peel strength of the adhesive bandage. 
         [0000]    Type: organopolysiloxane pressure-sensitive adhesive 
       Thickness: 10 to 100 μm 
     Second Embodiment 
       [0185]    A second embodiment of the invention is a method of manufacturing an X-ray detectable adhesive bandage  20  including: a pressure-sensitive adhesive protective member  30  including a backing  28  and a pressure-sensitive adhesive layer  26 ; and an absorbent member  40  that is provided on a predetermined part of the pressure-sensitive adhesive protective member  30  and includes a metal foil  22  provided with a hot melt adhesive layer, a long member  10  including a cover material and an X-ray detectable material entirely or partially covered with the cover material, and an absorbent pad  24 , which are sequentially stacked from bottom to top, the method including the following steps (A) to (E). 
         [0000]    (A) The step of stacking a metal foil  22  provided with a hot melt adhesive layer, a long member  10  including a cover material  14  and X-ray detectable materials  12  entirely or partially covered with the cover material  14 , and an absorbent pad  24  to form an absorbent member  40 ;
 
(B) The step of heating the absorbent member  40  to integrate the stacked materials and to form a heat and pressure bonded laminate;
 
(C) The step of cutting the heat and pressure bonded laminate into pieces of a predetermined size;
 
(D) The step of forming a pressure-sensitive adhesive protective member  30 ;
 
(E) The step of laminating the heat and pressure bonded laminate onto a predetermined part of the pressure-sensitive adhesive protective member  30 .
 
         [0186]      FIG. 6  also illustrates an apparatus  60  for manufacturing an X-ray detectable adhesive bandage  20 , which is used in carrying out the method of manufacturing the X-ray detectable adhesive bandage  20  and includes a unit A (mainly for the steps (C), (D), and (E)), a unit B (for a buffering between a unit A and a unit C), and a unit C (mainly for the steps (A) and (B)). 
       1. Step of Providing Materials 
       [0187]    As shown in the unit C of  FIG. 6 , a specific metal foil  22 , a specific long member  10 , and an absorbent pad  24  are generally each provided in the form of a roll. 
         [0188]    The specific metal foil, the specific long member, and the absorbent pad may each have the features shown in the first embodiment. 
         [0189]    Before the long member having X-ray detectable materials arranged at predetermined intervals is used, an infrared sensor, a height (thickness) sensor, an X-ray sensor, or the like is preferably used to check whether the X-ray detectable materials are properly contained. 
       2. Stacking Step (Step (A)) 
       [0190]    Subsequently, as shown in the unit C of  FIG. 6 , the specific metal foil  22 , the specific long member  10 , and the absorbent pad  24  are sequentially stacked from bottom to top using a laminator, a pressure roll, or the like to form an absorbent member  40 . 
       3. Step of Forming Heat and Pressure Bonded Laminate (Step (B)) 
       [0191]    Subsequently, as shown in the unit C of  FIG. 6 , the stacked materials of the absorbent member  40  are integrated using a heat and pressure bonding apparatus  50 . 
         [0192]    In this step, heat and pressure bonding conditions are not restricted. For example, when the absorbent pad used is a nonwoven fabric of a blend of polyester and rayon fibers, the heat and pressure bonding is preferably performed at a forming temperature higher than the softening point of the polyester fibers (e.g., 240° C.) and lower than the thermal decomposition temperature of the rayon fibers (e.g., about 310° C.). 
         [0193]    This is because in the process under such temperature conditions, the polyester fibers serve as a binder for the rayon fibers, so that a heat and pressure bonded laminate having both water absorbency and water repellency could be efficiently produced. 
       4. Cutting Step (Step (C)) 
       [0194]    Subsequently, as shown in the unit A of  FIG. 6 , the absorbent member  40 , which is a heat and pressure bonded laminate, is cut into pieces of a predetermined size using a cutting device  53 . 
         [0195]    After the heating and pressing, the absorbent member may be cut into pieces of a predetermined size using a cutting device, or alternatively, after the lamination, the product may be cut into pieces of a predetermined size and then subjected to heating and pressing. 
         [0196]    A cutter, a knife, a laser, a cutting frame, or any other cutting device may be used. 
         [0197]    After the absorbent member as a heat and pressure bonded laminate is cut, an infrared sensor, a height (thickness) sensor, an X-ray sensor, or the like is preferably used to check whether the X-ray detectable material is properly contained. 
       5. Step of Forming Pressure-Sensitive Adhesive Protective Member (Step (D)) 
       [0198]    Although not shown, a specific backing as a component of the pressure-sensitive adhesive protective member is generally provided in the form of a roll. It may be cut into pieces of a predetermined shape, so that a bandage-forming backing  28  as shown in  FIGS. 1A and 1B  could be obtained. 
         [0199]    A pressure-sensitive adhesive as a component of the pressure-sensitive adhesive protective member is also provided generally in the form of a polymer solution. 
         [0200]    The specific backing and the pressure-sensitive adhesive may have the same features as those described in the first embodiment, and therefore repetition of their description will be omitted. 
         [0201]    Subsequently, in the step of forming a pressure-sensitive adhesive layer, the polymer solution is applied to the backing, and the applied solution is dried to form a pressure-sensitive adhesive layer. 
         [0202]    In this case, the pressure-sensitive adhesive layer may be formed by any method. For example, the pressure-sensitive adhesive composition could be uniformly applied to the backing using a roll coater, a comma coater, a knife coater, or the like. 
         [0203]    In the step of forming the pressure-sensitive adhesive layer, a heat treatment is preferably performed under certain conditions to volatilize the solvent or to achieve crosslinking, although it depends on the type of the pressure-sensitive adhesive composition. 
         [0204]    The backing  28 , on which the pressure-sensitive adhesive layer  26  is formed, is then cut into pieces of a predetermined shape to form a pressure-sensitive adhesive protective member  30 . 
       6. Step of Laminating Pressure-Sensitive Adhesive Protective Member and Heat and Pressure Bonded Laminate (Step (E)) 
       [0205]    As shown in the unit A of  FIG. 6 , the resulting pressure-sensitive adhesive protective member  30  and the absorbent member  40 , which is the cut piece of the heat and pressure bonded laminate of a predetermined size, are laminated using a laminating apparatus  52  mounted on a support  56 , a pressure roll, or the like, so that an X-ray detectable adhesive bandage  20  is obtained. 
         [0206]    After the X-ray detectable adhesive bandage  20  is formed, an X-ray sensor  54  or an infrared sensor, a height (thickness) sensor or the like is preferably used to check whether the X-ray detectable material is properly contained. 
         [0207]    As shown in the unit B of  FIG. 6 , a buffering step may be provided between the unit A for performing the step (E) and so on and the unit C for performing the step (A) and so on, so that even when the progress of the operation in the unit A becomes slightly out of sync with that in the unit C, the buffering step could absorb it, and finally the operation in the unit A could be synchronized with that in the unit C. 
       EXAMPLES 
       [0208]    It will be understood that the above embodiments are not intended to limit the invention, and various changes and modifications thereof are possible as needed. 
       Example 1 
     1. Preparation of X-Ray Detectable Adhesive Bandage 
     (1) Step of Forming Heat and Pressure Bonded Laminate 
       [0209]    As shown in  FIG. 4B , a 100 μm thick rayon nonwoven fabric was previously folded in a V-shape, and steel wires (2 mm in length, 1 mm in diameter) as X-ray detectable materials were placed at predetermined intervals (25 mm) at the bottom of the V-shape, and surrounded and covered with rayon fibers, so that a long member was obtained. 
         [0210]    Subsequently, an aluminum foil (20 μm in thickness) provided with a polyvinyl chloride-based hot melt adhesive, and an absorbent pad (1.5 mm in thickness, 150 g/m 2  in weight per area, 0.075 g/cm 3  in bulk density) including rayon and polyester fibers and having a network polyethylene film on one side were stacked and subjected to heat and pressure bonding at about 110° C. to form a heat and pressure bonded laminate. 
         [0211]    Using a cutter, the heat and pressure bonded laminate was then cut into pieces of a predetermined shape (25 mm in length, 13 mm in width, 100 μm in thickness). 
       (2) Step of Forming Pressure-Sensitive Adhesive Protective Member 
       [0212]    A 30 μm thick urethane film (450% in elongation percentage (according to JIS L 1096) having 720 g/(m 2 ·24 hours) in water-vapor permeability (according to JIS Z 0208)) was provided as a backing. 
         [0213]    Also provided was a silicone pressure-sensitive adhesive (7.5 Pa·sec (25° C.) in viscosity, 55.1% by weight in solid content, 12.1 N/25 mm in adhesive strength (according to JIS Z 0237, mode: T mode peeling, adherend: stainless steel plate, peel rate: 300 mm/min)). 
         [0214]    The pressure-sensitive adhesive was then applied to the backing using a roll coater, so that a pressure-sensitive adhesive layer with a dry thickness of 25 μm was formed on the backing. 
       (3) Step of Forming X-Ray Detectable Adhesive Bandage 
       [0215]    Subsequently, using a laminator, each resulting heat and pressure bonded laminate was laminated onto a predetermined part of the pressure-sensitive adhesive protective member, so that an X-ray detectable adhesive bandage as shown in  FIG. 1A  was obtained. 
       2. Evaluation of X-Ray Detectable Adhesive Bandages 
     (1) X-Ray Detecting Ability (Evaluation 1) 
       [0216]    The resulting adhesive bandage was buried in 100 g of potato salad, and it was examined whether or not the buried bandage was detectable as a foreign body by an X-ray inspection apparatus. 
         [0217]    Specifically, the resulting adhesive bandages (the number n of samples: 100) were examined for their X-ray detecting ability using an X-ray inspection apparatus KD7305AW (manufactured by Anritsu Industrial Solutions Co., Ltd), and evaluated according to the following criteria. 
         [0000]    Very good: The detection result was 100/100 bandages.
 
Good: The detection result was 98/100 to 99/100 bandages.
 
Fair: The detection result was 70/100 to 98/100 bandages.
 
Bad: The detection result was below 70/100 bandages.
 
       (2) Containing Metal Detecting Ability 1 (Evaluation 2) 
       [0218]    The resulting adhesive bandage was buried in 100 g of potato salad, and it was examined whether or not the buried bandage was detectable as a foreign body by a metal detector. 
         [0219]    Specifically, the resulting adhesive bandages (the number n of samples: 100) were examined for their containing metal detecting ability using a metal detector HA-01 (manufactured by Anritsu Industrial Solutions Co., Ltd), and evaluated according to the following criteria. 
         [0000]    Very good: The detection result was 100/100 bandages.
 
Good: The detection result was 99/100 bandages.
 
Fair: The detection result was 70/100 to 98/100 bandages.
 
Bad: The detection result was below 70/100 bandages.
 
       (3) Containing Metal Detecting Ability 2 (Evaluation 3) 
       [0220]    The backing (2 cm×1.9 cm in size) of the resulting adhesive bandage was buried in 100 g of potato salad, and it was examined whether or not the buried material was detectable as a foreign body by a metal detector. 
         [0221]    Specifically, the backings of the resulting adhesive bandages (the number n of samples: 100) were examined for their containing metal detecting ability using a metal detector HA-01 (manufactured by Anritsu Industrial Solutions Co., Ltd), and evaluated according to the following criteria. 
         [0000]    Very good: The detection result was 100/100 backings.
 
Good: The detection result was 99/100 backings.
 
Fair: The detection result was 70/100 to 98/100 backings.
 
Bad: The detection result was below 70/100 backings.
 
       (4) Comfortableness (Evaluation 4) 
       [0222]    The comfortableness of the resulting adhesive bandages (the number n of samples: 3) was evaluated according to the following criteria. 
         [0000]    Very good: The bandage is sufficiently stretchable and could be very easily put around a finger.
 
Good: The bandage is almost sufficiently stretchable and could be easily put around a finger.
 
Fair: The bandage is slightly stretchable and could be put around a finger.
 
Bad: The bandage is hardly stretchable and difficult to be put around a finger.
 
       (5) Foreign Body Sensation (Evaluation 5) 
       [0223]    The resulting adhesive bandage (the number n of samples: 3) was put around a finger when a foreign body sensation to the finger of the X-ray detectable material was evaluated by finger touching according to the following criteria. 
         [0000]    Very good: The X-ray detectable material is not felt at all.
 
Good: The X-ray detectable material is hardly felt.
 
Fair: The X-ray detectable material is slightly felt.
 
Bad: The X-ray detectable material is significantly felt.
 
       Examples 2 to 6 
       [0224]    In examples 2 to 4, X-ray detectable adhesive bandages were prepared and evaluated in the same manner as in example 1, except that the average length of the wire-shaped X-ray detectable materials in the long member was changed to 2.5 mm, 3.0 mm, and 3.5 mm, respectively and that the thickness of the aluminum foil was changed to 25 μm and 30 μm, respectively, in examples 2 and 3. 
         [0225]    In example 5, X-ray detectable adhesive bandages were prepared and evaluated in the same manner as in example 1, except that coiled X-ray detectable materials (2 mm in length, 0.2 mm in thickness) were placed instead in the long member. 
         [0226]    In example 6, X-ray detectable adhesive bandages were prepared and evaluated in the same manner as in example 1, except that a 30 μm thick, metal particle-containing, urethane film (metal particles: steel spheres, average particle size: 7 μm, content: 25% by weight, elongation percentage (according to JIS L 1096): 420%, water-vapor permeability (according to JIS Z 0208): 600 g/(m 2 ·24 hours)) was used instead as the backing. 
       Comparative Example 1 
       [0227]    In comparative example 1, X-ray detectable adhesive bandages were prepared and evaluated in the same manner as in example 1, except that the long member exclusive of the X-ray detectable materials was used instead and that the metal foil was not laminated. 
       Comparative Example 2 
       [0228]    In comparative example 2, X-ray detectable adhesive bandages were prepared and evaluated in the same manner as in example 1, except that the steel wire-containing long member was not used and that only the steel wires (4 mm in length, 1 mm in diameter) were disposed in the nonwoven fabric with tweezers. 
         [0229]    In most of the adhesive bandages of comparative example 2, however, the steel wire dropped out of the absorbent pad during manufacture or use, which made the manufacture or the use unavailable. 
       Comparative Example 3 
       [0230]    In comparative example 3, X-ray detectable adhesive bandages were prepared and evaluated in the same manner as in example 1, except that the long member containing no X-ray detectable materials was used. 
         [0000]    
       
         
               
               
               
             
               
               
               
               
             
               
               
               
               
               
               
               
               
               
               
             
               
               
               
               
               
               
               
               
               
               
             
           
               
                   
                 TABLE 1 
               
             
             
               
                   
                   
               
               
                   
                 X-ray detectable 
                   
               
               
                   
                 material in 
               
               
                   
                 long member 
               
             
          
           
               
                   
                 Average 
                 Metal foil 
                   
               
             
          
           
               
                   
                 Type 
                 length 
                 Type 
                 Thickness 
                 Evaluation 1 
                 Evaluation 2 
                 Evaluation 3 
                 Evaluation 4 
                 Evaluation 5 
               
               
                   
                   
               
             
          
           
               
                 Example 1 
                 Steel wire 
                 2.0 mm 
                 Al foil 
                 20 μm 
                 Very good 
                 Very good 
                 Bad 
                 Very good 
                 Very good 
               
               
                 Example 2 
                 Steel wire 
                 2.5 mm 
                 Al foil 
                 25 μm 
                 Very good 
                 Very good 
                 Bad 
                 Very good 
                 Very good 
               
               
                 Example 3 
                 Steel wire 
                 3.0 mm 
                 Al foil 
                 30 μm 
                 Very good 
                 Very good 
                 Bad 
                 Very good 
                 Good 
               
               
                 Example 4 
                 Steel wire 
                 3.5 mm 
                 Al foil 
                 20 μm 
                 Very good 
                 Very good 
                 Bad 
                 Very good 
                 Good 
               
               
                 Example 5 
                 Steel wire 
                 2.0 mm 
                 Al foil 
                 20 μm 
                 Very good 
                 Very good 
                 Bad 
                 Good 
                 Fair 
               
               
                 Example 6 
                 Steel wire 
                 3.5 mm 
                 Al foil 
                 20 μm 
                 Very good 
                 Very good 
                 Good 
                 Very good 
                 Good 
               
               
                 Comparative 
                 Absent 
                 Absent 
                 Absent 
                 Absent 
                 Bad 
                 Bad 
                 Bad 
                 Very good 
                 Very good 
               
               
                 Example 1 
               
               
                 Comparative 
                 Steel wire 
                 4.0 mm 
                 Al foil 
                 20 μm 
                 Bad 
                 Very good 
                 Bad 
                 Fair 
                 Bad 
               
               
                 Example 2 
               
               
                 Comparative 
                 Absent 
                 Absent 
                 Al foil 
                 20 μm 
                 Bad 
                 Very good 
                 Bad 
                 Very good 
                 Very good 
               
               
                 Example 3 
               
               
                   
               
               
                 *In Comparative Example 2, the steel wire containing the long member was not used and only the steel wire was disposed in the pad with tweezers. 
               
             
          
         
       
     
         [0231]    As shown in Table 1, the adhesive bandages of examples 1 to 6 all had the X-ray detecting ability (Evaluation 1) of high sensitivity and the containing metal detecting ability (Evaluations 2 and 3) of high sensitivity and all showed good results on comfortableness (Evaluation 4) and foreign body sensation (Evaluation 5). The adhesive bandages of examples 1 to 6 were detectable with high accuracy not only by an X-ray inspection apparatus but also by a metal detector. 
         [0232]    On the other hand, the adhesive bandage of comparative example 1 had significantly low sensitivity with respect to the X-ray detecting ability, although it showed good results on the containing metal detecting ability, comfortableness and foreign body sensation. 
         [0233]    Among the adhesive bandages (100 samples) obtained under the conditions of comparative example 2, the adhesive bandages each containing the steel wire in the absorbent pad (about ⅓ of all samples) had very good sensitivity to the X-ray inspection apparatus and the metal detector. However, most of the resulting adhesive bandages (about ⅔ of all samples) caused the steel wire to drop out of the absorbent pad during manufacture or test, and these adhesive bandages had significantly low sensitivity to the X-ray inspection apparatus and the metal detector. Thus, the X-ray detecting ability and the containing metal detecting ability (Evaluation 2) per 100 adhesive bandages of comparative example 2 were evaluated to be very low due to the ratio of the number of steel wire-containing samples to the number of samples containing no steel wire. 
         [0234]    The adhesive bandages, out of which the steel wire had dropped, could not be subjected to the tests for evaluations 3 and 4. In some adhesive bandages, the shape of the pad was significantly changed by the steel wire, even though they held the steel wire, and such bandages were slightly difficult to be put around a finger. In addition, when the steel wire easily moved in the pad, a foreign body sensation significantly occurred during the application of the bandage to a finger. 
         [0235]    The adhesive bandages of comparative example 3 had significantly low sensitivity with respect to the X-ray detecting ability although their containing metal detecting ability was good. 
         [0236]    The X-ray detectable adhesive bandage of the invention could be detected with high sensitivity by an X-ray inspection apparatus as shown in  FIG. 7 . Thus, the X-ray detectable adhesive bandage of the invention is expected to be applicable as a marker for food products, fiber products, clothes, and small articles, for which foreign body contamination and marker&#39;s performance are issues, and also expected to be applicable as a marker for documents, a marker for electric appliances, a tag for footwear, a tag for mechanical devices, etc. 
         [0237]    Thus, even when the X-ray detectable adhesive bandage is accidentally placed in a product packaged in metal, it could be detected by an X-ray inspection apparatus, so that foreign body contamination could be easily prevented. 
         [0238]    In addition, the X-ray detectable adhesive bandage of the invention, in which the heat and pressure bonded laminate includes an X-ray detectable material and a metal foil, is detectable with high sensitivity not only by an X-ray inspection apparatus but also by a metal detector. 
       DESCRIPTION OF REFERENCE SIGNS 
       [0239]      10 : Long member,  12 ,  12 ′: X-ray detectable material,  14 : Cover material,  20 ,  20 ′,  20 ″,  20 ′″: X-ray detectable adhesive bandage,  22 : Metal foil,  24 : Absorbent pad,  26 : Pressure-sensitive adhesive layer,  28 : Backing,  30 : Pressure-sensitive adhesive protective member,  32 ,  218 : Backing-forming material,  34 ,  219 : Metal particles,  40 : Absorbent member (heat and pressure bonded laminate)