Patent Publication Number: US-4654389-A

Title: Adhesive compositions of ethylene-unsaturated carboxylic acid copolymers

Description:
This application is a continuation-in-part of our earlier application Ser. No. 640,486, filed on Aug. 13, 1984, now abandoned. 
    
    
     FIELD OF THE INVENTION 
     This invention relates to hot melt adhesive compositions of copolymers of ethylene and unsaturated carboxylic acids, and more particularly, to such adhesive compositions in which the copolymer has a high content of acid. Still more particularly, this invention relates to such adhesive compositions which exhibit improved utility as hot melt adhesives for bonding difficult-to-bond substrates. 
     BACKGROUND OF THE INVENTION 
     Hot melt adhesives are generally a solid thermoplastic material which quickly melts upon heating and then sets to a firm bond on cooling. In contrast to most other types of adhesives which typically set by evaporation of a solvent or emulsion medium, hot melt adhesives are generally homogenous mixtures. In the manufacture of hot melt adhesives, a thermoplastic material is typically compounded (e.g., melt blended) with one or more tackifiers, waxes, antioxidants and/or other stabilizing additives, and then cooled to form rods, pellets, chicklets, bricks or the like for sale to an end user. In the use of hot melt adhesives, the rods, pellets, chicklets, bricks or the like are typically heated in a reservoir at about 120°-250° C. (and often kept at this temperature in the reservoir for 24 hours or more) from which it is supplied to a substrate by pumping or pressure extrusion through nozzles or slot dies. In contrast to the solvent or emulsion type adhesive which requires time for the evaporation of the solvent or emulsion medium, an almost instantaneous bonding can be obtained with hot melt adhesives. 
     The use of thermoplastic ethylene polymers in hot melt adhesive compositions is well known. For example, in U.S. Pat. No. 3,485,783 there is described a hot melt adhesive composition containing at least 40% by weight of a polymerized rosin ester tackifier and at least 25% of a copolymer of ethylene and acrylic acid or alkyl acrylate. However, in such adhesive compositions it has heretofore been necessary to limit the acrylic acid content of the copolymers to twelve percent by weight or less because of compatibility problems with waxes and tackifiers. The immiscibility of ethylene-acrylic acid copolymers containing more than 5 mole percent acrylic acid has also been reported in adhesive compositions including a wood rosin tackifier and a petroleum wax in U.S. Pat. No. 3,869,416. Similarly, U.S. Pat. No. 4,284,541 reported unsuitable fluidity in a pressure sensitive adhesive composition of a tackifier and a modified ethylene-alpha-olefin copolymer to which had been grafted more than ten percent by weight of the copolymer of an unsaturated carboxylic acid. 
     Hot melt adhesive compositions containing a tackifier and an ethylene-unsaturated carboxylic acid copolymer in which the acrylic acid content is greater than twelve percent have heretofore required the addition of other ingredients, including oil as in U.S. Pat. No. 4,283,317, or an alkenyl succinic anhydride as in U.S. Pat. No. 4,325,853. In many applications, oils and waxes are undesirable because of reduced physical properties, chemical resistance and/or adhesion. 
     SUMMARY OF THE INVENTION 
     The present invention is a hot melt adhesive composition which consists essentially of (a) a copolymer of ethylene and an unsaturated carboxylic acid in which the acid content in the copolymer is from 12% to about 30%, preferably 14% to 25%, by weight of the copolymer, and (b) a thermoplastic tackifier which is compatible with the copolymer and which imparts substantial adhesive strength to the composition when the composition is applied as a hot melt adhesive to a substrate selected from aluminum, nylon, glass, galvanized steel, polypropylene, polyvinyl chloride and polyacrylonitrile-butadiene-styrene. 
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     The copolymer and the tackifier may be present in the composition in any relative proportion, but there is usually no advantage in doing so, in comparison with employing either the copolymer or tackifier alone, unless at least an approximate minimum amount of the other is present. Preferably, the composition contains, by weight of the composition, from about 20 to about 90% of the copolymer and from about 10 to about 80% of the tackifier, and especially 30 to 70% of the tackifier. 
     The copolymers useful in the hot melt adhesive composition of the invention are copolymers of ethylene and at least one unsaturated carboxylic acid. As used herein, the term copolymer also includes the salts, or ionomers of such copolymers. The acid may be any unsaturated carboxylic acid such as, for example, acrylic acid, methacrylic acid, ethacrylic acid, crotonic acid, vinyl acetic acid, maleic acid, fumaric acid or combinations thereof. The preferred unsaturated carboxylic acid is acrylic acid or methacrylic acid. The copolymer may contain from 12 to about 30 weight percent of the unsaturated carboxylic acid, preferably from about 14 to about 25 weight percent. The copolymer preferably has a melt flow value from about 100 (0.97 grams/10 minutes melt flow ASTM D-1238 condition 125/0.325) to about 7,000 (69 grams/10 minutes melt flow ASTM D-1238 condition 125/0.325), and especially from about 150 to about 4,000. As used herein, the term melt flow value refers to melt flow values standardized to correspond to ASTM D-1238 condition 190/2.16 unless otherwise indicated. Further, the copolymer may contain relatively minor amounts of other monomers known to be copolymerizable with ethylene and such unsaturated carboxylic acids. Methods for preparing such copolymers are well known. 
     The tackifiers suitable for use in the composition of the invention include any tackifier which is compatible with the copolymer and which imparts substantial adhesive strength to the composition when the composition is applied as a hot melt adhesive to a substrate of aluminum, nylon, glass, galvanized steel, polypropylene, polyvinyl chloride, or polyacrylonitrile-butadiene-styrene. As used herein, by the term tackifier is meant thermoplastic resins such as, for example, rosin and its derivatives, terpene resins, aromatic hydrocarbon resins and aliphatic hydrocarbon resins. These tackifiers typically have a ring and ball softening point of about 25°-180° C. These tackifiers and the methods for preparing them are well known in the art. 
     By compatible is meant that a molten mixture consisting substantially only of the tackifier and the copolymer is not subject to phase separation and does not exhibit a significant increase or decrease in viscosity upon standing. Thus, those tackifiers which exhibit phase separation when employed in the adhesive composition and those which result in the viscosity of the composition thickening significantly are incompatible. 
     It has been discovered that of the wide variety of tackifiers commercially available, while many are compatible with ethylene-unsaturated carboxylic acid copolymers with an acid content below 12 weight percent, few are actually compatible in hot melt adhesive compositions containing the aforementioned copolymers of ethylene and at least about 12 weight percent unsaturated carboxylic acid. Further, not all of the compatible tackifiers have been found to be useful in imparting adhesive strength to the composition when applied as a hot melt adhesive to the aforementioned substrates. By the term &#34;imparts substantial adhesive strength&#34; is meant that the composition containing both the copolymer and the tackifier exhibits an improvement in adhesion to at least one of the aforementioned substrates which is at least about twice, preferably at least about 5-10 times, that of the copolymer alone. 
     Commercially available tackifiers useful in the composition of the present invention have been found to be limited to two general classes, including: (1) rosins having an acid number above approximately 80, preferably above 120, most preferably about 150-160, and rosins which have been diluted with an aromatic hydrocarbon resin to have an acid number above approximately 80, preferably about 100; and (2) terpene resins, preferably alpha-pinene or dipentene resins, most preferably phenolic alpha-pinene resins. For reasons presently not understood, not all tackifiers from these classes are compatible, nor do all the compatible tackifiers from these classes impart adhesive strength to the composition. Thus, it is generally necessary to evaluate the suitability, i.e. compatibility and substantial improvement in adhesion, prior to use with a specific substrate of a particular tackifier in a hot melt adhesive. 
     Rosin is a complex mixture of primarily abietic and pimaric acids. For use in the invention, the rosin is preferably stabilized through modification by hydrogenation, dehydrogenation, polymerization, neutralization, or esterification with glycerine, glycerol, pentaerythritol or the like, and as used herein, the term &#34;rosins&#34; encompasses modified and unmodified rosins unless otherwise specified. Particularly suitable rosins are available commercially from Hercules Incorporated under the designations FORAL AX and STAYBELITE. These rosins have an acid number of about 160 and are believed to be rosins partially hydrogenated to at least about 50% of theoretical hydrogen uptake. 
     Rosins or modified rosins which have been diluted with an aromatic hydrocarbon resin to have an acid number above about 80 are also suitable. Such rosins are available from Hercules Incorporated under the designations PEXALYN A-500 and PEXALYN A-600. These tackifiers are believed to be rosin esters diluted with aromatic hydrocarbon resins including polymerized C 9  vinylaromatic compounds obtained as byproducts of petroleum refining or cracking. 
     Compositions of the aforementioned ethylene-unsaturated carboxylic acid copolymers and the FORAL AX, STAYBELITE, PEXALYN A-500 or PEXALYN A-600 tackifiers exhibit improved adhesive properties when applied as a hot melt to one or more of the substrates selected from aluminum, nylon, glass, galvanized steel, polyvinyl chloride and polyacrylonitrile-butadiene-styrene. 
     Tackifiers sold under the trade names PICCOFYN A-135 and PICCOLYTE A-125 by Hercules Incorporated are exemplary of the terpene resins particularly suitable for use in the composition. PICCOFYN A-135 tackifier is believed to be a resin of alpha-pinene polymerized with phenol and has an acid and saponification number of about 0 and a ring and ball softening point of about 135° C. PICCOLYTE A-125 tackifier is believed to be a resin of polymerized alpha-pinene and has an acid and saponification number of about 0 and a ring and ball softening point of about 125° C. Compositions of the ethylene-unsaturated carboxylic acid copolymers and these terpene resins exhibit substantially improved adhesive properties when applied as a hot melt to polypropylene, particularly those containing the PICCOFYN A-135 tackifier. 
     The adhesive composition may further contain relatively minor amounts of ingredients such as colorants, antioxidants and other stabilizing additives which do not substantially adversely affect the compatibility of the system or the improved adhesion. The composition should not contain more than insubstantial quantities of incompatible tackifiers, or tackifiers or additives which reduce the improved adhesion of the composition, such as, for example, waxes and oils. 
    
    
     The hot melt adhesive composition of the invention is best illustrated by way of the following data: 
     TACKIFIER COMPATIBILITY 
     The compatibility of various commercially available tackifiers and waxes with ethylene-acrylic acid copolymers of varying acrylic acid content (8 and 20 wt.%) was determined by observation of phase separation or increase in viscosity. The tests were conducted by placing a composition having a 50-50 weight ratio of tackifier and the copolymer in a forced air oven at 177° C. The samples were allowed to sit in the oven for 1-1.5 hours and then stirred. They were then allowed to sit in the oven for a period of from about 12 to about 18 hours. The samples were then examined for phase separation. Using a glass stirring rod, the viscosity of the hot mixture was examined visually and physically for any significant increase or decrease in viscosity in comparison to the sample as originally mixed and stirred after the 1-1.5 hour period. Those mixtures in which phase separation occurred or those which thickened significantly were determined to be incompatible. The results of the compatibility testing are seen in Table I. 
     
                                           TABLE I                                 
__________________________________________________________________________
       Tackifier          R &amp; B     Compatibility With                    
Tackifier                                                                 
       Trade              Softening                                       
                                Acid                                      
                                    Ethylene/Acrylic Acid                 
Class  Designation Supplier                                               
                          Point, °C.                               
                                No. Cop. A.sup.a                          
                                          Cop. B.sup.b                    
__________________________________________________________________________
Natural                                                                   
       K           Hercules.sup.A                                         
                          73    160 C     C                               
Wood   M           Hercules                                               
                          73    161 C     C                               
Rosins N           Hercules                                               
                          73    161 C     C                               
       WG          Hercules                                               
                          72    162 C     C                               
       VINSOL      Hercules                                               
                          112   95  N     N                               
Tall Oil                                                                  
       SYLVATAC AC Neville.sup.B                                          
                          78    178 C     C                               
Rosins SYLVATAC ACF                                                       
                   Neville                                                
                          78    153 C     C                               
       SYLVATAC RX Neville                                                
                          75    145 C     C                               
       SYLVATAC 95 Neville                                                
                          95    154 C     C                               
       SYLVATAC 115                                                       
                   Neville                                                
                          117   140 C     C                               
       SYLVATAC 140                                                       
                   Neville                                                
                          140   137 C     C                               
       SYLVATAC 295                                                       
                   Neville                                                
                          95    161 C     C                               
       SYLVATAC 315                                                       
                   Neville                                                
                          58    98  C     C                               
Hydro- FORAL AX    Hercules                                               
                          68    160 C     C                               
genated                                                                   
       STAYBELITE  Hercules                                               
                           75*  160 C     C                               
Rosins STAYBELITE 570                                                     
                   Hercules                                               
                           76*  157 C     C                               
Dehydro-                                                                  
       RESIN 731-D Hercules                                               
                           80*  154 C     C                               
genated                                                                   
Rosins                                                                    
Polymerized                                                               
       DYMEREX     Hercules                                               
                          145   139 C     C                               
Rosins DYMEREX A700                                                       
                   Hercules                                               
                          73    88  C     C                               
       DYMEREX 724 Hercules                                               
                          131   168 C     C                               
       POLY-PALE   Hercules                                               
                          95    144 C     C                               
       POLY-PALE II                                                       
                   Hercules                                               
                          95    145 C     C                               
       RESIN NC-11 Hercules                                               
                          82    153 C     C                               
       RESIN 861   Hercules                                               
                          82    153 C     C                               
Rosin  Ester Gum.sup.1                                                    
                   Hercules                                               
                          87    6   N     N                               
Esters PENTALYN 344.sup.2                                                 
                   Hercules                                               
                          104   10  C     N                               
       SYLVATAC 100NS                                                     
                   Sylvachem.sup.C                                        
                          99    9   N     N                               
       ZONESTER 55.sup.4                                                  
                   Arizona.sup.D                                          
                          52    8   N     N                               
       ZONESTER 75.sup.4                                                  
                   Arizona                                                
                          78    8   N     N                               
       ZONESTER 85.sup.5                                                  
                   Arizona                                                
                          82    8   N     N                               
       ZONESTER 100.sup.6                                                 
                   Arizona                                                
                          94    8   N     N                               
Rosin Esters                                                              
       PEXALYN A500.sup.3                                                 
                   Hercules                                               
                          86    98  C     C                               
(Diluted)                                                                 
       PEXALYN A600.sup.3                                                 
                   Hercules                                               
                          104   92  C     C                               
Hydro- FORAL 85.sup.7                                                     
                   Hercules                                               
                           82*  9   C     N                               
genated                                                                   
       FORAL 105.sup.8                                                    
                   Hercules                                               
                          104*  12  C     N                               
Rosin  HERCOLYN D.sup.9                                                   
                   Hercules                                               
                          liquid                                          
                                7   N     N                               
Esters HYDROTAC 114                                                       
                   Hercules                                               
                          liquid                                          
                                7   C     C                               
       HYDROTAC 117                                                       
                   Hercules                                               
                          liquid                                          
                                7   C     C                               
       PENTALYN H.sup.10                                                  
                   Hercules                                               
                          104*  12  C     N                               
       STAYBELITE.sup.7                                                   
                   Hercules                                               
                           81*  5   C     N                               
       ESTER 5                                                            
       STAYBELITE.sup.7                                                   
                   Hercules                                               
                           83*  8   C     C                               
       ESTER 10                                                           
       SYLVATAC 80N                                                       
                   Hercules                                               
                          85    7   N     N                               
Dibasic                                                                   
       CELLOLYN 102.sup.12                                                
                   Hercules                                               
                          134*  36  N     N                               
Acid   LEWISOL 28.sup.13                                                  
                   Hercules                                               
                          141*  37  N     N                               
Modified                                                                  
       PENTAL 28   Hercules                                               
                          129*  35  N     N                               
Rosin  PENTALYN 255                                                       
                   Hercules                                               
                          171*  190 N     N                               
Esters PENTALYN 261                                                       
                   Hercules                                               
                          171*  205 N     N                               
       PENTALYN 269                                                       
                   Hercules                                               
                          177*  200 N     N                               
       PENTALYN 830.sup.14                                                
                   Hercules                                               
                          118*  78  N     N                               
       PENTALYN 856.sup.12                                                
                   Hercules                                               
                          131*  140 N     N                               
       PENTREX 821 Hercules                                               
                          150*  201 N     N                               
Terpenes                                                                  
       PICCOLYTE A115                                                     
                   Hercules                                               
                          115   &lt;1  C     C                               
(Alpha-                                                                   
       PICCOLYTE A125                                                     
                   Hercules                                               
                          125   &lt;1  C     C                               
Pinene)                                                                   
Terpenes                                                                  
       PICCOLYTE S115                                                     
                   Hercules                                               
                          115   &lt;1  N     N                               
(Beta- PICCOLYTE S125                                                     
                   Hercules                                               
                          125   &lt;1  N     N                               
Pinene)                                                                   
       ZONAREZ B-85                                                       
                   Arizona                                                
                          85    &lt;1  N     N                               
       ZONAREX M115                                                       
                   Arixona                                                
                          105   &lt;1  N     N                               
Terpenes                                                                  
       PICCOLYTE D-100                                                    
                   Hercules                                               
                          100   &lt;1  C     C                               
(Dipentene)                                                               
       ZONAREZ 7085                                                       
                   Arizona                                                
                          85    &lt;1  C     N                               
       ZONAREZ 7100                                                       
                   Arizona                                                
                          100   &lt;1  C     N                               
       ZONAREZ 7115                                                       
                   Arizona                                                
                          115   &lt;1  C     N                               
       ZONAREZ 7125                                                       
                   Arizona                                                
                          125   &lt;1  C     N                               
Terpenes                                                                  
       PICCOFYN A100                                                      
                   Hercules                                               
                          100   &lt;1  C     C                               
(Phenolic)                                                                
       PICCOFYN A125                                                      
                   Hercules                                               
                          115   &lt;1  C     C                               
       PICCOFYN A135                                                      
                   Hercules                                               
                          135   &lt;1  C     C                               
Other  NEVTAC 100  Neville                                                
                          102   &lt;1  N     N                               
Polyterpenes                                                              
       NEVTAC 130  Neville                                                
                          131   &lt;1  N     N                               
       WINGTACK PLUS                                                      
                   Goodyear.sup.E                                         
                          94    &lt;1  N     N                               
       WINGTACK 10 Goodyear                                               
                          12    &lt;1  C     N                               
       WINGTACK 95 Goodyear                                               
                          98    &lt;1  C     N                               
       ZONATAC 105 Arizona                                                
                          105   &lt;1  C     N                               
Aromatic                                                                  
       HERCOTAC    Hercules                                               
                          100   &lt;1  N     N                               
Hydro- AD4100-BHT                                                         
carbons                                                                   
       KRISTALEX 3100                                                     
                   Hercules                                               
                          100   &lt;1  N     N                               
       LX-1122     Neville                                                
                          100   &lt;1  N     N                               
       NEVEX 100   Neville                                                
                          100   &lt;1  N     N                               
       PICCO 5100  Hercules                                               
                          100   &lt;1  N     N                               
       PICCOLASTIC A75                                                    
                   Hercules                                               
                          75    &lt;1  N     N                               
       PICCOLASTIC D100                                                   
                   Hercules                                               
                          100   &lt;1  N     N                               
       PICCOMER 40 Hercules                                               
                          37    &lt;1  N     N                               
       PICCOTEX LC Hercules                                               
                          75    &lt;1  N     N                               
       PICCOTEX 75 Hercules                                               
                          90    &lt;1  N     N                               
Aromatic                                                                  
       NEVILLAC Hard                                                      
                   Neville                                                
                          95    (170)+                                    
                                    N     N                               
Hydro- NEVILLAC Soft                                                      
                   Neville                                                
                          61    (174)+                                    
                                    N     N                               
carbons                                                                   
       NEVILLAC Special                                                   
                   Neville                                                
                          95    (113)+                                    
                                    N     N                               
(Phenolic                                                                 
       NEVILLAC TS Neville                                                
                          liquid                                          
                                (235)+                                    
                                    N     N                               
modified)                                                                 
Coumarone-                                                                
       CUMAR LX-509                                                       
                   Neville                                                
                          100   &lt;1  N     N                               
Indenes                                                                   
       CUMAR P-25  Neville                                                
                          25    &lt;1  C     N                               
       CUMAR R-16  Neville                                                
                          103   &lt;1  N     N                               
       CUMAR MH-21/2                                                      
                   Neville                                                
                          100   &lt;1  N     N                               
Aromatic                                                                  
       TERATE 101  Hercules                                               
                           40*  50  N     N                               
Esters TERATE 131  Hercules                                               
                           90*  80  C     C                               
Aliphatic                                                                 
       ESCOREZ 1304                                                       
                   Exxon.sup.F                                            
                          100   &lt;1  C     N                               
Hydro- ESCOREZ 1310                                                       
                   Exxon  94    &lt;1  C     N                               
carbon ESCOREZ 2101                                                       
                   Exxon  93    &lt;1  C     N                               
Resins LX-1035     Neville                                                
                          170   &lt;1  N     N                               
       PICCOTAC A-BHT                                                     
                   Hercules                                               
                          118   &lt;1  N     N                               
       PICCOTAC B-BHT                                                     
                   Hercules                                               
                          100   &lt;1  N     N                               
       PICCOTAC 95-BHT                                                    
                   Hercules                                               
                          95    &lt;1  C     N                               
       RES D44     Hercules                                               
                          18    &lt;1  C     N                               
       RES D45     Hercules                                               
                          33    &lt;1  C     N                               
       RES D150    Hercules                                               
                          65    &lt;1  C     N                               
       RES D151    Hercules                                               
                          78    &lt;1  C     N                               
__________________________________________________________________________
 Notes for Table I:                                                       
 .sup.1 Glycerol ester.                                                   
 .sup.2 Pentaerythritol ester.                                            
 .sup.3 Rosin ester diluted with C.sub.9 vinylaromatics.                  
 .sup.4 Glycerol ester of disproportionated tall oil rosin.               
 .sup.5 Glycerol ester of tall oil rosin.                                 
 .sup.6 Pentaerythritol ester of tall oil rosin.                          
 .sup.7 Glycerol ester of hydrogenated rosin.                             
 .sup.8 Pentaerythritol ester of hydrogenated rosin.                      
 .sup.9 Hydrogenated methyl ester of rosin.                               
 .sup.10 Pentaerythritol ester of partially hydrogenated rosin.           
 .sup.11 Phthalate ester of technical hydroabietyl alcohol.               
 .sup.12 Pentaerythritol ester of dibasic acid modified rosin.            
 .sup.13 Maleic modified glycerol ester of rosin.                         
 .sup.14 Pentaerthritol ester of modified maleatred rosin.                
 .sup.A Hercules Incorporated.                                            
 .sup.B Neville Chemical Co.                                              
 .sup.C Sylvachem Corp.                                                   
 .sup.D Arizona Chemical Co.                                              
 .sup.E Goodyear Tire and Rubber Co.                                      
 .sup.F Exxon Chemical Co., U.S.A.                                        
 *Hercules drop method.                                                   
 + Hydroxyl number.                                                       
 .sup.a 92 wt. % ethylene, 8 wt. % acrylic acid, melt flow value 700; N = 
 incompatible, C = compatible.                                            
 .sup.b 20 wt. % acrylic acid, melt flow value 500, obtained from The Dow 
 Chemical company under the designation PRIMACOR ADHESIVE POLYMER 5983; N 
 incompatible, C = compatible.                                            
 
    
     ADHESIVE STRENGTH TESTING 
     Adhesive strengths of compositions containing 60 weight percent of a tackifier and 40 weight percent of an ethylene-acrylic acid copolymer containing 20% acid and having a melt flow value of 500 (obtained from The Dow Chemical Company under the trademark PRIMACOR ADHESIVE POLYMER 5983) were determined by the methods of peel strength and lap shear tests. Control I is the PRIMACOR 5983 ethylene-acrylic acid copolymer without any tackifier. Control II is a composition of 60% PEXALYN A-500 tackifier and 40% low density polyethylene resin (density 0.910, melt index 425). 
     Peel strength tests were used for film-forming substrates such as aluminum, nylon and polypropylene. Substrate strips measuring about 10 cm×20 cm were taped to a turntable and passed under a Meltex hot melt gun, Model MP-400, which extruded a single bead of the molten composition onto the substrate surface. An extrusion temperature of about 204° C. was used, and the orifice size (1.0-2.5 mm) and pressure was varied to obtain about a 0.5 gram bead weight of extruded resin per 20 cm. Within five seconds, another 10 cm×20 cm substrate was laid upon the first and an aluminum bar weighing about 433 grams and measuring about 20 cm×6 cm×1 cm was placed on the covered bead. The sample was allowed to cool for one minute before removing from the table. The samples were aged twenty-four hours before cutting 2.5 cm×10 cm test specimens. The peel strength was determined with an Instron tensile tester at a 180° peel angle. 
     Lap shear tests were used to determine the adhesion of the compositions to non-film forming substrates, including glass and galvanized steel. Samples were prepared by extruding a molten bead onto the end of one specimen, placing the end of another specimen on top the first and lightly pressing together while allowing to cool. Lap shear strength was determined using an Instron tensile tester equipped with an environmental chamber at 23° C. 
     
                       TABLE II                                                    
______________________________________                                    
Adhesive Strength                                                         
           Peel Strength (g/25 mm)                                        
                         Lap Shear (Kg/                                   
           Substrate     cm.sup.2) Substrate                              
             Alumi-  Ny-    Polypro-     Galv.                            
Control/Tackifier                                                         
             num     lon    pylene Glass Steel                            
______________________________________                                    
Control I.sup.1                                                           
               0      990   41     4.0   11.7                             
Control II.sup.2                                                          
               0       0    45     0     0                                
PEXALYN A-500.sup.3                                                       
             1960    2150   77     26.4  23.3                             
STAYBELITE.sup.4                                                          
             1510    1340   100    21.8  31.6                             
PICCOFYN A-135.sup.5                                                      
               0       0    450    0     0                                
PEXALYN A-600.sup.6                                                       
               0      110   0      12.7  4.1                              
PICCOLYTE A-125.sup.7                                                     
               0       0    82     4.6   0                                
______________________________________                                    
 Notes for Table II:                                                      
 .sup.1 Ethylene-acrylic acid copolymer containing 20 wt. % acrylic acid, 
 melt flow value 500, obtained from The Dow Chemical Company under the    
 designation PRIMACOR ADHESIVE POLYMER 5983.                              
 .sup.2 60 wt % PEXALYN A500 tackifier, 40 wt. % LDPE (density 0.910, melt
 index 425).                                                              
 .sup.3 60 wt. % PEXALYN A500 tackifier, 40 wt. % PRIMACOR ADHESIVE       
 COPOLYMER 5983.                                                          
 .sup.4 60 wt. % STAYBELITE tackifier, 40 wt. % PRIMACOR ADHESIVE COPOLYME
 5983.                                                                    
 .sup.5 60 wt. % PICCOFYN A135 tackifier, 40 wt. % PRIMACOR ADHESIVE      
 COPOLYMER 5983.                                                          
 .sup.6 60 wt. % PEXALYN A600 tackifier, 40 wt. % PRIMACOR ADHESIVE       
 COPOLYMER 5983.                                                          
 .sup.7 60 wt. % PICCOLYTE A125 tackifier, 40 wt. % PRIMACOR ADHESIVE     
 COPOLYMER 5983.                                                          
 
    
     GENERAL ADHESION TESTS 
     The adhesive compositions were tested by extruding a control bead across the end of a plastic substrate as in the lap shear tests discussed above. The samples were peeled apart by hand and results were classified as poor (P), adhered to the substrate but were easy to separate, fair (F), a moderate amount of force was needed to separate the samples, and good (G), very difficult to separate. The results are listed in Table III. 
     
                       TABLE III                                                   
______________________________________                                    
General Adhesion                                                          
Control/           Substrate                                              
Tackifier          ABS.sup.1                                              
                           PVC.sup.2                                      
______________________________________                                    
Control I.sup.3    P       P                                              
PEXALYN A-500.sup.4                                                       
                   G       G                                              
STAYBELITE.sup.5   F       F                                              
PEXALYN A-600.sup.6                                                       
                   F       F                                              
PICCOLYTE A-125.sup.7                                                     
                   P       P                                              
PICCOFYN A-135.sup.8                                                      
                   P       P                                              
______________________________________                                    
 Notes for Table III:                                                     
 .sup.1 Polyacrylonitrile-butadiene-styrene.                              
 .sup.2 Polyvinyl chloride.                                               
 .sup.3 See note 1 from Table II.                                         
 .sup.4 See note 3 from Table II.                                         
 .sup.5 See note 4 from Table II.                                         
 .sup.6 See note 6 from Table II.                                         
 .sup.7 See note 7 from Table II.                                         
 .sup.8 See note 5 from Table II.                                         
 
    
     The compatibility tests demonstrate that relatively few commercially available tackifiers are compatible with the ethylene-acrylic acid copolymers in which the acrylic acid content is in excess of 12% by weight. Note, for example, the general incompatibility of phenolic-modified aromatic hydrocarbon resins, aromatic hydrocarbon resins, aromatic ester resins and coumarone-indene resins. Also note the incompatibility of various rosin tackifiers with high acid numbers sold under the designations VINSOL, the PENTALYN&#39;s, and PENTREX 821. Nearly all of the tackifiers tested were otherwise compatible with low density polyethylene (0.930 density, melt index 280) and ethylene-vinyl acetate copolymer (18 wt.% vinyl acetate, melt flow value 500). 
     The results in Tables II and III demonstrate the utility of the compositions according to the invention. Compositions containing PEXALYN A-500 tackifier exhibit improved adhesive strength when applied as a hot melt to substrates of aluminum, nylon (two-fold), glass (six-fold), galvanized steel (two-fold), polyacrylonitrile-butadiene-styrene and polyvinyl chloride. Similarly, compositions containing STAYBELITE are useful with aluminum, glass (5-fold adhesive strength improvement) and galvanized steel (nearly three-fold adhesive strength improvement). Further, compositions containing PICCOFYN A-135 tackifier are useful as hot melt adhesives for polypropylene (eleven-fold adhesive strength improvement). 
     In addition, with a substantial number of the remaining tackifiers listed in Table I which are otherwise compatible with ethylene-acrylic acid copolymers in which the acrylic acid content is 20% by weight, when employed in hot melt compositions containing the copolymer, there is no or only marginal improvement of adhesive strength, or a reduction of adhesive strength. 
     While the hot melt adhesive composition of the invention is described above, many other variations will occur to those skilled in the art. It is intended that all such variations which fall within the scope and spirit of the appended claims be embraced thereby.