PT100895B

PT100895B - PROCESS FOR INCREASING THE NATURE CONTAINING ADHESIVE AND SEALANT MATERIALS AND COMPOSITIONS OF GLUES AND SEALS WITH IMPROVED ADHESION CONTAINING CYCLODEXTRIN

Info

Publication number: PT100895B
Application number: PT100895A
Authority: PT
Inventors: Finn Bergishagen
Original assignee: Cerestar Usa Inc
Priority date: 1991-09-23
Filing date: 1992-09-23
Publication date: 1999-07-30
Also published as: JPH07505168A; NZ244424A; SK33794A3; HU9400824D0; FI941312A0; JP2743035B2; FI941312A; BR9206524A; AU2687792A; CZ289633B6; CZ62394A3; EP0613486A4; KR0137426B1; NO940950D0; AU658674B2; CA2116458A1; WO1993006162A1; AR248039A1; CA2116458C; EP0613486A1

Abstract

The improved adhesion is provided by incorporating into an adhesive and/or sealant plastic material an effective amount of cyclodextrin or a complex of cyclodextrin and blowing agent. Where the complex of cyclodextrin and blowing agent is employed, an expandable mixture is formed.

Description

A process for increasing the adherent nature of adhesive and sealant materials and compositions of adhesives and sealants with improved adhesion containing cyclophosphamide " The present invention relates to adhesive and sealant materials and more particularly relates to a process for improving the adhesion of adhesive and sealant materials and also to an adhesive and sealant composition which has improved adhesion properties.

It has been found that the present invention is especially useful for adhesive materials and expanded sealants which traditionally utilize a blowing agent.

The blowing agents often referred to as foaming agents are substances which produce a cellular structure in a plastic or elastoplastic fluidized composition ... .. As agents .... ... of ......... Conventional blowing refers to fluorocarbon derivatives, gaseous nitrogen, hydrazine derivatives, trihydrazine triazine, 5-phenyl tetrazole, p-toluene, sulfonyl semicarbazide, modified axodicarbonamide and azodicarbonamide. The blowing agents of chemical nature constitute a class of blowing agents which may be in solid or liquid state at ambient temperature and which are heated to release a gas. a well-known class of blowing agents and the chemical nature sold under the trade mark CELGEO was prepared by the method of the present invention. P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P. blowing agents used with adhesive plastic materials in hot melt adhesive compositions. The blowing agents are also used in food wrapping materials which are applied to the exterior of the various parts of an animal after it has been slaughtered and before being marketed in the wholesale circuit. Who can designate this product by " cover for the shell ".

Typically the chemical blowing agents are used by mixing them with a plastic material in the solid state and then heating the mixture and holding it under pressure. The heat fluidizes the plastic material and causes the blowing agents to release a gas. This gas forms bubbles or cells in the fluid plastic material.

The chemical blowing agents have an advantage over the gaseous blowing agents, which is that it is possible to add them to the plastic material in the solid state before heating. Gaseous blowing agents such as nitrogen and some fluorocarbon derivatives must be injected into the fluidized plastic material. With adhesive materials and seals in the ... molten state. when heated, a gas is mixed with the adhesive composition before the end of the nozzle. Λ The use of fluorocarbon derivatives as blowing agents is under close surveillance because of their high effect on the terrestrial ozone layer. Other conventional blowing agents present problems related to handling, toxicity and inflation and to the production of impurities. 2, 3, 4, 5, 6, i rr. to the center of the center, and to the center of the center. Hi derrena; c :. 'or.t: c: cc cohesive c, ·· i: P · -. ip.pp P pp ZU d-1L 1 ca 0 p 0. <np pr * ': VC :. C 'Γ was 0 vedaste oz CC. · I ti 0 να' onsti í 4 Cu p 0 Γ a: · -. . r. rf * r *. • -r-:. j. (2) (2) (2) (2) (2) (2) (2): The present invention relates to a process for the preparation of a compound of the formula: ## STR4 ## but the present invention relates to a process for the preparation of a compound of formula (I). · '. ,,,,,,,,,,,,,,,,,,,,,,,,,. rrrt -GvCC. ... is this: c ~ cc ccor / osto? I reacted to it. L :: rnn ~ ArcCaix COC COE C a cc estic C antics C o m p ccpc < . The process according to the present invention and the process of the invention are described in the following examples. the ccdcctrána as a natcriai u vccantc oplicanêc then co nist ccotcrial ccotcrial or adhesive bone capobrc ces steps of supplying the plastics material odesivo odesocodeo Cocomplex per cgcnte of the inscription

Ο ΠΓ: CC Γ 7 C - Or.T-·,.. and then Eistera p 1 c. cca cca cca pca pca. d are blades dorce cclclcs jmaterial nlostico ćicicriicocc. The reaction mixture is cooled to 0 ° C. and the reaction mixture is mixed with a co-molding agent before the addition of the plastic anteriol. (1) and (2), the cross- cone c tiplecncatc rraticcdo in the case cauteros convcncionnl in these: γ be. such as in the case of such a coccus, such coccus occurs in the non-citrus or polyurethane layer. I! The adhesive and / or sealant composition according to the present invention is formed. per r. and / or sealant by a complex formed by an insufflation component and by a cyclodextrin. 0 G r 'G " As shown previously, d. < w > S. < / RTI > The adhesive composition is improved by the presence of cyclodextrin. Here in that composition. Thus cyclodextrin has a local binding site and blowing agent as well as the function of agent or i to improve the xdG.Ci 3 viscosity or the tackiness of the matt sealant or adhesive. The amount of cyclodextrin that is added to the adhesive and / or plastic plastics material is an amount effective to improve adhesion of the cementitious material and / or sealant. Preferably, the amount of cycling added to the adhesive plastics material and / or to improve adhesion varies approximately 30 parts by weight based on 100 parts of adhesive and / or plastics plastic. Most preferably about 1 to 15 pbw of cyclodextrin is added to the adhesive and / or sealant plastics material to improve adhesion. Preferably about 1 to 10 pbw of cyclodextrin is added to the nate-i; adhesive and / or sealant to improve adhesion

Hice. The amounts now listed also represent the amount of cyclodextrin complex and the isoflurinating agent which is added to the adhesive and / . . , As amended by the Agreement. . or between the blowing agent complex

In order to form the admixture between the adhesive and / or plastic plastics material constituted by the cyclodextrin and the blowing agent and the adhesive and / or plastic plastics material, any conventional mixing procedure normally used with adhesive materials and / or sealants is used .

Cyclodextrins also designated 4 " GT tc-sos c

and cycloalkyls, the cytokines thereof are non-cyclic in the case of cycloalkyl, in the presence of a compound of the formula: ## STR3 ## The compound of the formula ## STR4 ## is selected from the group consisting of: (a) - (b) - (c) - (c) These compounds are rings of six, each of which is referred to in the following manner by COCOCOCCOCHLORIDE. C G-C í-C G-C G-C G-C G-C G-C G-C G-C G-

From a conventional node, the cyclodextrins are obtained from an anhydride solution with a color teaching. an acid to provide a gelatinous and liquid cassava having a DE value comprised between 1 and 5. The gelatinated and liquid homogeneous mixture is then treated with cyclodextrin glycosyl transferase (CGT) for an economical value of pu. tenperature and teno for CGT selects. teaches CGT is obtained from microorganisms such cos ·; 1 nr> born D, aatateriur. Ξ. circulans. rOpDiles- and t-acillus sp. (alkaline) and tanso from the others. The product resulting from digestion from a gelatinised and liquid phase with the teachings CGT is then subjected to a separation and purification process to provide the cyclodextrins. one of two important aspects under r > The concomitant view of cyclodextrins is their ability to perform the functions of ubclatrate or to house other compounds available commercially. Under the context of the physical view a cyclodeztrine has the configuration of a torus. As a consequence of this fact, it is mentioned that the cytodestrins are cepases and perform the functions of a clear coat of substances having external geochemical dissensions corresponding to the diameter of the cyclodextrin cavity. It is furthermore omitted by adding a secondary chain such as hydroxy-propyl-cyclodextrin on the outside of the cyclodectrin and the configuration of a torus. 0 will have 'caclodeztrine " used in this!

In addition, the cyclodextrins are modified. : ec r'conplexo " or ε expression "people and inflation"used; the following claims are cyclic dextrin and the protective agent in the shelter in which the exothermic agent: ciccocextrin has the ratios of to the blowing agent but also those of insufflation is intimately associated with the cyclodextrin coefficient by forces of weak connection.

A method for the formation of a complex between a cyclodextrin and a blowing agent involves the dissolution of the cyclodextrin in water with a blowing agent and subsequent collection of the precipitate which forms.

Another method is to charge a ball mill with a cyclodextrin and stain a blowing agent and grind those charges in that ball mill for a certain period of time. After trituration, a complex is formed between the cyclodextrin and the blowing agent. Other known methods for the formation of a complex between a cyclodextrin and a molecule which is housed therein comprise kneading, lyophilizing and cross-linking. Good results have been obtained by effecting cotration. the aid of a mortar and pilao.

Of suitable form, the cyclodextrins used in the present invention are cycloalkyls, or "cyclo-dextrins." It is preferable to use the β-cyclodextrin once it is commercially available, with relative ease. A compound made from a combination of the three cyclodextrins provides different release of the blowing agent regimes. This phenomenon is assumed to be partially due to the differences in binding forces between the blowing agent and the various cyclodextrins.

Suitable blowing agents 6

X-X-X-X-R ". r-> and the like. c i ". 2-hexylaminopropylene glycol, dicyclohexyl, and solids such as toluene peroxide, and the like. . c Γ OS r * > , â € ƒâ € ƒâ € ƒâ € ƒâ € ƒâ € ƒ- cu c troces i 3 -. The seed is the seed. and it is expedient. q _ ç- " (i.e. propylene glycol copolymer. •? r- * <. 1 are water, propylene glycol, dipropyloxyglycol, ethylene glycol not used as blowing agents due to the action of the present invention. weak d: ·. s ρ ersaon the plastic materials "0 p / 3" ·. 1: o 0 i | solids such as benzoyl peroxide is at low decomposition temperature. Both water and propylene glycol are considered safe and non-toxic to humans. many conventional blowing agents are toxic to humans. The use of such non-toxic blowing agents in the workplace gives them a degree of safety hitherto unrecognized. Using a combination of two or more blowing agents such as water and propylene glycol or using different cyclodextrins having the same blowing agents, the blowing agent may be varied in temperature.

In addition, conventional blowing agents such as hydrazine, triazia-triazine, 5-phenyl-tetrazole, ρ-toluenesulfonyl semicarbazide, azotyloxy- carbonamide and azodicarbonamide which form a complex with the cyclodextrin. The blowing agents of the COUVENIONAL type " ~ that ""Cyclodextrincomplexes" reduce the formation of dust and stabilize the composition. The amount of blowing agent comprising the complex ranges from 1 to 30 parts by weight of cyclodextrin from 3 to 15 phr. Even more preferably, about 5 to 7 parts by weight of cyclodextrin is present in the copolymer. the formation of the complete cyclodextrin and the blowing agent. an amount in excess of the inflation bridge is given. It has been found that a suitable source of cycloalkyl- The commercially available cyclodextrin generally has between 10 and 12 phr of water. It has been found that the use of this cyclodextrin in an adhesive composition provides suitable gas to be heated in such a way that the commercially available cyclodextrin integrated in the complete one in the proportion between 10 and 12 pcc of water plays the role of blowing agent. that the smaller the dimensions of the particles that are part of the complex, the greater the uniformity of the bubble dimensions. Good results were obtained with the cyclodextrin complex and an insufflation agent having particles of dimensions that allow them to pass through a 200 gauge mesh.

As suitable plastics materials are polymers such as polystyrene, polyvinyl chloride, polyethylene, polyurethane, polyphenols, polypropylene, polyisoprene and also copolymers such as styrene, styrene- isoprene, non-butadiene (elastoplastic) and ethylene-butylene, ethylene-vinyl acetate. Specific examples of adhesive plastic materials are ethylene-vinyl acetate (EAV). of the present invention with EAV.

A typical adhesive composition prepared in accordance with the present invention contains:

Ecological parts

L ·! '. VI Modified Resins Waxes: Carb. j Complex agent agent | derthrin 25-60 25-60 0-30 ring ιυΟ 0.05-0.5 pcp 0-100 pcp

i-10-c-C >. C to C 1-10 pcp; to make books, made in accordance with the present invention, is! Cold cramps; | Parts by weight ΓΛ V Jl 1-. 35-45 Modified resin 20-30 Flashing 20-30! Wax | 10-20 Total plastic adhesive material 100; . 0.05-0.25 pcp Complete blowing agent-cyclodextrin 1-10 pcp; (Optional) 1-10 pcp [Preferably the by the cyclodextrin blowing agent is a complex: consisting of water-cyclodextrin and between S and 15 cc of water. Preferably, the amount of the co-ops is: used in the composition of the adhesive to bind books varies from about 3 to about 7 cps. water comprised between about 10 and 15 phr. The use of a microbial or fungicidal biocidal agent forming a complex with a cyclodextrin helps prevent degradation if incorporated into the adhesive composition. Water will play the role of agent.

gudara ε release the microbial biocidal agent i or runr-j. The adhesive composition for binding books is prepared by mixing all the components per a convex process;

Adhesive adhesive properties have! Application temperature comprised approx.

It has been found that the constituent per- percy and per cyclodextrin has several advantages over the use of liquid nitrogen according to the prior art. The present machinery for applying a hot molten composition to bind books and specialized machinery which allows the incorporation of liquid nitrogen. With the cyclodextrin-water complex of the present invention it is possible to use diversified equipment. In addition, the available time has increased, there is a larger contact surface and less adhesive material is used to cover the same area.

A sealing adhesive composition for cartons and suitcases according to the present invention has the following behavior: EAV Modified resin

I

Total adhesive plastic material Antioxidant Complex of insufflation agent-cyclo-dextrin

Parts by weight 40 40 20 100 0.01 pc p 1-10 pep

Preferably the complex consisting of the blowing agent-cyclodextrin is a propylene glycol cyclodextrin complex and has approximately between 8 and 15æc of propylene glycol. Preferably,

It consists of the following Eode:

EAV

Parts by weight 25-50 t »25-60 0-30 100 0.05-0.5 pcp 0- 100 pcp 1- 10 pcp

Resin modified! Waxes! Total Adhesive Plastic Material Antioxidant Loads

The cyclodextrin blowing agent complex used in the carpet support adhesive composition is a cyclodextrin complex containing approximately 8 to 15 phr of any of the components water, propylene glycol or a combination of water and propylene glycol or a combination of water, propylene glycol and hydrazine derivatives. (I.e.

In addition, such a carpet support adhesive composition preferably contains a cyclodextrin complex and a mildew acid in an amount in the order of 1.0 pcp. As mildew agents are the di-iodomethyl-p-tolylsulfone, phenols and butylhydroxy-toluene compounds; the diiodomethyl-p-tolylsulfone compound whose liberation is activated by the water released by the cyclodextrin is preferred. The carpet support adhesive composition is prepared by blending all components in a conventional process. The application temperature of said carpet support composition ranges from about 300-350Â ° F.

It has been found that the presence of cyclodextrin in the various adhesive and sealant compositions also increases the adherent nature of the sealant or the adhesive composition.

A small amount of the enzyme designated amylase added to the expandable plastic composition of the present invention will perform, and be heated, the functions of a catalyst which will accelerate the release of the blowing agent from the cyclodextrin. In order for the amylase enzyme to perform the catalytic function there must be some water in the plastic composition. The amylase is believed to use water to destroy the cyclodextrin thereby accelerating the release of the blowing agent.

It will be appreciated that other compounds may be added to the plastic material containing the blowing agent of the present invention including mildew agents, fungicides and flavors.

These and other aspects of the present invention will be better understood with reference to the following examples.

Example 1

This example illustrates a hot melt adhesive composition, in accordance with the present invention specifically is an adhesive composition for binding. 12-amino. position d erg, encacernaceo i..e:: c. cc-c-tavbeiitc1 " Microcrystalline wax. plastic material for binding 7:

0.1 pbw of ur. and GI consisting of: water - β-cyclodextrin. : c tctci

: p- ce ta compie :::

This complex contained 7? -T-2? -Cyclodextrin and 2.5 g of water. Water and cyclodextrin were prepared by mixing water and excess. the cyclodextrin. After the adhesive plastic composition was mixed with an anti-caking agent and the aqueous complex cleaved with the mixture obtained, the mixture obtained was mixed. the temperature of iGG ° C passing the water from the liquid state to the vapor state and consequently causing an expansion of the adhesive composition. The percentage value of the volume expansion of the adhesive composition was about 100%. The EAV-5G7 component is a commercial ethylene-vinyl acetate copolymer supplied by Union Carbide Corp. The resin of Staybeiite is a hydrogenated resin and plasticizer based on styrene-glycol esters of hydrogenated resins supplied by Hercules, Pcv / der Co. C component " Pentaiyn K " is a synthetic resin provided by Kércules Fouder Cc. Microcrystalline wax is a commercially available wax provided by: Petrolite Corp. of Tulsa, Oklahoma. The anti-oxidant agent is the Irgancx 1010 product provided by Ciha-Geigy Corp. The β-cyclodextrin used is a commercial grade β-cyclodextrin provided by American Kaize Products Cocpany of Hameond, Indiana. The water used was tap water. It is surprising and unexpected that a complex consisting of cyclodextrin and water has been effective in this formulation since water alone does not act as an insufflation agent in the adhesive composition for binding.

Example 2 -13 P. c. The example illustrates the preparation of a cartons and suitcases according to the present invention. adhesive; prnpj? he proceeded to follow. Composition by weight. j "; -. Piccolv te A-115 " 12 ς " Super " STATAC " 12, 5 " Folyvax 1000 " 10 castor wax 10 total plastic adhesive material 100 ι pj.astic2 cohesive pcp of an anti oxidant and 10 pcp of a complex consisting of propylene glycol-β-cyclodextrin was added. This complex contained 1 mol of β-cyclodextrin and 2 moles of propylene glycol. This propylene glycol and β-cyclodextrin complex was prepared by mixing an excess amount of propylene glycol with .beta.-cyclodextrin.

The mixture of adhesive composition, anti-oxidant agent and propylene glycol-β-cyclodextrin complex was then heated. The propylene glycol component passed from the liquid state to the gaseous state causing consemermer. adhesive composition. The expansion of the adhesive composition in percentage value relative to the volume, by action of the propylene glycol blowing agent, was about 100%. The EAV-30 component 5 is a commercial grade ethylene vinyl acetate copolymer supplied by Union Carbide. The C 1 M-2400 component was supplied by Union Carbide. The " Piccclyte A-115 " component is a thermoplastic terpenic resin supplied by Hercules. The " Super STATAC " was supplied by Reichold Chemical Inc. The component " Polyvrax 2000 " was supplied by Bareco and wax 14 ---- «xr.ua | ---- «xr.ua | ;; was purchased from Universal Preservachems. The anti-oxidant agent used was the product I rga π ox 1010./ ·. / 5-cyclodextrin was a β-cyclodextrin of color-grade quality provided by " American Maize-Products Corpany cf Man- Indiana. The n-propylene glycol used was a commercially available product supplied by Uow (J. It is both surprising and unexpected that a complex consisting of propylene glycol and a cyclodextrin is effective in this formulation since the propylene glycol alone does not acts as an agent for the 1!

Exemplary of this example illustrates the preparation of a carrier adhesive composition of the present invention. the following composition was prepared: EVA material Modified resins Waxes Total adhesive plastic material Mildiocide (optional) Arts 10 100 1 - 10 dc ρ To this adhesive plastic composition was added 0.1 pbw of a an anti-oxidant agent, about 20 pbw of a filler and 5 pbw of a complex consisting of water and Î²-cyclodextrin, together with 5 parts of a complex consisting of propylene glyc- β-cyclodextrin. The blowing agent and cyclodextrin complexes were prepared in accordance with examples 1 and 2 previously described. The blowing agent and cyclodextrin complexes were mixed with a. adhesive composition simultaneously by a process in accordance with examples 1 and 2 described above. 15 ° C. The composition of the present invention comprises the following steps: and in the form of a number of colors. < (I.e.

The present invention relates to a method for the preparation of a pharmaceutical composition according to any of the preceding claims. pcs and north of the!

EC and Eurations u. The invention relates to a method for the preparation of a pharmaceutical composition according to the invention. . . VV- i. - t-

Ci JC. carbonate carbonate. I will drain

The foregoing illustrates the preparation of a pressure sensitive adhesive composition in accordance with the present invention. The following adhesive composition was prepared:

Material Parts of this material are available from the ETS 605 3C " Stsybelite Ester 10 " The total adhesive plastics material 100 noa: product organ: 1010 ap.ua and / 3-cytidryrethrin and to this accipital composition of an anti-onion agent constituted by 1010; 5 pbw of air: · Complete consisting of 5 pbw of ur. A compound of the formula I comprises a compound of the formula: The substance consisting of water and β-cyclodenethrin contained 12.0 g of water. The complete composition consists of Î²-cyanentrin or cyclohexylamine which is a volatile corrosion inhibitor in the form of a colored compound. o .erenpi o i. liberated constituted dicyclohexylamine integrin dentin. The preparation of the compound of the formula ## STR4 ## wherein: A r > oonr * rst -v fr> rn *: < 16

The complex was then liberated to equilibrate in vacuo to give the title compound as a white crystalline solid. Hum Moisture released from metal surfaces Π r r r r r r r r r r r r r. Plexus I mechanism for corrosion. The composition is stable and stable. The component in the complex is not stable during the adhesive heating. The components L / .V 501 and GO 5 used are commercially available and can be used as solvents for the copolymer. Ο Z. V10 Π 6 Γ; Cyclohexylamine in the process rrz Λ *. 7? The compounds of the present invention have been described by Union et al. η. ϋ ϋ a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0? f; O. C-i. The components of the Stayb: Ls by Hercules. The temperature ran. acesive composition varies approximately

O ✓Ί O "we o2o r.

Example 5 Enter ο η n

This example illustrates an expandable and curable composition of the present invention. A. Hot-melt-base Including Parts Kraton FC 1901 x (supplied by Shell) 100 Regalrez 1013 (supplied by Hercules) 270 Enaex 155 (supplied by Kreis) 50 irgancx 1010 (supplied by Giba η. Preparation of calcium sulfonate based plasticizer (supplied from 1 to 10) 10

Complex Ge / 3-cyclocextrines: cyclohexyl] amine (2: 1 molar ratio) 2 Aluminum acetate (50:50 aluminum in iSunpar 2230 " supplied by Sun 011) . . Î²-cyclodextrin (10-13% of Η 20) 1, 2, 3, 4, 5, 6, 7, 8, 9, 10,

The hot melt-proof base was dried over magnesium sulfate, dried over magnesium sulfate, and evaporated to dryness. in the form of a cold rolled sheet of galvanized steel which is heated to a temperature in the course of heating to a temperature in the range of from -20 ° C to + · C * o -? . T 7 · ** a c - u - u. on the foliage in both the cytoplasm and the volume. As in the horizontal plane, the mixture was hydrophobic and

The mixture of 50 parts of the hot melt-base of Example 5 was mixed with 50 parts of the calcium sulphate catalyst, the calcium sulphonate-based plasticizer was heated to remove the water by evaporation before mixing with the hot melt base. The mixture was placed on a cold rolled steel plate and on a cold rolled galvanized steel plate and then heated in an oven at 200 ° C for 15 minutes. During heating the mixture melted and spread over the plates without any expansion.

Cohesion of adhesion to Expenditures 5 and 6

The product according to Example 6 was tested for adhesion to cold rolled and cold rolled galvanized steel plates and the same procedure as for Example 5 was used for comparison purposes. The cured material of Example 5 above adhered much more strongly to cold-rolled and cold-rolled galvanized steel sheets than the product of Example 6. It was found that it was found to be much easier to remove from the Example 6 by pulling therefrom the material prepared according to Example 5 previously described which was easily produced.

Example 7

A mixture was prepared according to Example 6 above except that

I

The water of the plasticizer based on calcium sulphate before the mixing is carried out and the product obtained is placed on the cold rolled steel plate and on the galvanized steel plate cold-rolled then introduced into an oven at 200 ° C. It was found that the mixture of this txes-plo simply hardened. The curing process was accelerated due to the presence of water as evidenced by the lack of fluidity or formation of the material placed on said steel sheets.

Lcenuio

A mixture was prepared in the same manner as in Example 5 above, except that the mixture was not allowed to reflux. The mixture was placed on a sheet of cold rolled steel and on a sheet of steel

| galvanized sheet and the sheets were then introduced into an oven at 200 ° C. This material expanded not doubled and its volume. The blowing agent (water) was in the cyclodextrin and was released under heating together with the cyclohexylamine component (the vapor phase corrosion inhibitor). In the cyclodextrin the water is controlled and is not available for the curing process until a sufficient amount of heat is applied to activate its release.

Exemolo 9

A conventional sealant composition having the following formulation was prepared:

Ingredients - Formula A Parts KRATON CD 6501 '' (supplied by Shell) ........ & ............ 100 'j

Regalrez 1018 j (supplied by Hercules) 270! |

Endex 155; (provided by Hercules) 50

Irganox 1010 (supplied by Ciby Geigy) 1 - 19 -

These materials were blended to produce a product which was placed on cold rolled steel sheets and sheets of cold rolled galvanized steel and then loaded into an oven at 220Â ° C for 15 minutes. This material melted and spread over the plates.

Example 10

In this example the formula A is used for the preparation of a sealant composition according to the present invention:

Ingredients Parts Formula A 10/3-cyclodextrin (10-13% water) 2

These components were mixed and placed. this product obtained on a sheet of cold rolled steel or on a sheet of galvanized cold rolled steel and then the sheets were introduced in an oven at 200 ° C for 15 minutes. This seal actually increased in volume but this increase was not 100% in relation to its initial volume.

Comparison of the adhesion between the products of Examples 9 and 10

Adhesion to the steel plates of the material made according to example 1 was tested and the material prepared according to Example 10 was carried out in the same manner for comparison purposes. It was found that the sealing product of Example 10 of the present invention adhered to the steel plates better than the sealing product of Example 9. .................. .... . ....................

The sealant of Example 10 was also tested for determination of the relative adhesion found between the cold rolled steel plate and the cold rolled galvanized steel plate. The sealant of Example 10 was found to adhere best to a sheet steel a. cold than to a galvanized and cold-rolled steel plate. - 20 -

This example illustrates the use of another chemical blowing agent integrated in a complex with a cyclodextrin.

Ingredient Parts Formula A 10

Complex of Î²-cyclodextrin and dibutyl tin dilau-mouse (24% chemical blowing agent) 2 Î²-cyclodextrin (10-13% water) 2

These components were mixed and the product obtained was placed on a sheet of cold rolled steel or on a sheet of cold rolled galvanized steel and then placed in an oven at 200 ° C for 15 minutes. This material also expanded upon heating to about 100% of its initial volume.

Corrosion of the adhesive compositions of Examples 9 and 10

Adhesion to the steel plates of the material prepared in accordance with Example 9 was tested and the material prepared according to Example 11 was likewise carried out for comparison purposes. It was found that the sealant composition of Example 11 of the present invention adhered to the steel plates better than the sealant composition of Example 9.

The sealant composition of Example 11 was also tested for relative adhesion between the cold rolled steel plate and the cold rolled galvanized steel plate. The sealant composition of Example 11 was found to adhere better to the cold rolled steel plate than to the cold rolled and galvanized steel plate.

Example 12

This example illustrates the use of a β-cyclodextrin complex and benzoyl peroxide-

>: V%, which simultaneously constitutes an insufflation agent and an agent for curing a thermoplastic. The following co-benefits were prepared.

Composition Weight A. " Fusabond C-D189 " (supplied by DuPont) 10 g

Complex of β-cyclodextrin and benzoyl peroxide (10% benzoyl peroxide) 1 g B.Fusabond C-D198 10 g C. Fusabond C-D198 10 g / ml cyclodextrin (10% water) 1 g D FusabondC-D 198 10 g

Benzoyl peroxide 0.1 g

Each composition was mixed while it was warm and while maintaining fluid extrusion was obtained to obtain sheets of uniform thickness. Slices of equal length and weight were cut from these sheets and placed in an oven at 200 ° C.

During the mixing of benzoyl peroxide not integrated into the complex the decomposition of benzoyl peroxide occurred as shown by the formation of bubbles. This phenomenon was observed when the benzoyl peroxide and β-cyclodextrin complex was mixed under the same conditions. The amount of benzoyl peroxide was the same in the two compositions. In a complex state the benzoyl peroxide component was stabilized during the mixing process. It was also difficult to obtain a uniform distribution of benzoyl peroxide not integrated into the complex during the mixing process. The complex consisting of Î²-cyclodextrin and benzoyl peroxide was readily mixed and evenly distributed during the compounding process.

After heating, there were marked differences. The composition D which contained

As well as peroxide and bubbles in the distribution

benzoyl not integrated into the complex cured very practically did not spread in the lateral sense, cured composition did not have uniform dimensions. Composition A which contained the Î²-cyclodextrin complex and benzoyl peroxide also rapidly cured and practically did not spread in the lateral direction. The phenomena of insufflation and healing occur simultaneously. This composition reached a higher height than sample D containing the benzoyl peroxide not integrated into the complex. The bubbles observed in composition A presented uniform dimensions and distribution. The composition C spreads laterally more than any of the other compositions. The water released from the cyclodextrin formed bubbles of uniform size and distribution. The water released played the role of a traditional blowing agent but there was no curing agent present to cure the composition in order to retard spreading. Composition B spreads laterally more than Compositions A and D but not as much as Composition C. No curing agent was present which could retard spreading and no blowing agent was present which could increase spreading .

The best results were obtained with composition A containing the complex consisting of benzoyl peroxide and Î²-cyclodextrin. The benzoyl peroxide was stabilized so as to be released under heating while simultaneously acting as a curing agent and as blowing agent. The complex was also readily mixed and dispersed in the composition.

It will be appreciated that the present invention encompasses all variations and modifications of the appearance. preferred embodiment of the invention now described and which has been chosen -

Claims

for illustrative purposes only, provided that there is no departure from the scope and spirit of the present invention. A process for increasing the adherent nature of a material, characterized in that: a mixture is formed of a glue and / or a plastics sealant and an effective amount of a cyclodextrin complex and an expanding agent; and heating said mixture so as to fluidize said plastics material and so as to cause said expanding agent to expand said plastics material while said plastics material is in a fluidized state. 2. A process according to claim 1, wherein prior to forming said mixture, a step of forming a complex is performed between said expander and said cyclodextrin. 3. A process according to claim 1, wherein said cyclodextrin is a β-cyclodextrin. 4. A process according to claim 1, wherein said blowing agent comprises one or more components selected from water, propylene glycol, dipropylene glycol, tripropylene glycol, ethylene glycol, cyclohexyl amine, dicyclohexylamine and with peroxide. - 5 to -

Process according to claim 1, characterized in that about 1 to 30 parts by weight of said complex is mixed with said plastic material based on 100 parts by weight of said plastic material. A method for mixing the adherent nature of a glue and / or a sealant material characterized by the steps of: (a) adding an effective amount of a cyclodextrin to said glue and / or said sealant material; and (b) mixing said glue and / or plastic material

sealant and cyclodextrin to provide a better adhesion blend. 7. A process according to claim 6, wherein the cyclodextrin is a β-cyclodextrin. - 8a -

A process as claimed in claim 6, wherein the amount of said cyclodextrin added to said adhesive and / or said plastic sealant material constitutes approximately 1 to 30 parts per 100 parts by weight of said plastic material. 9. A process according to claim 6, wherein said adhering plastic material is ethylene vinyl acetate. 10a - Adhesive composition and / or seal with improved adhesion, characterized in that it is constituted

by a glue and / or a plastics sealant and by an effective amount of a cyclodextrin. 11. A glue according to claim 10, characterized in that the adhesive plastic material is an ethylene vinyl acetate copolymer. 12. The adhesive of claim 10, wherein said cyclodextrin is present in said adhesive in an amount of about 1 to 30 parts per 100 parts by weight of said plastic material. An improved adhesion and / or sealant composition, characterized in that it comprises a sealant and / or a plastic material and an effective amount of a cyclodextrin complex and a blowing agent. The adhesive and / or sealant composition of claim 13, wherein said complex is present in said composition in an amount in the range of from about 30 to 100 parts by weight of said plastics material. 15. A glue according to claim 13, characterized in that said expanding agent is present in said complex in an amount of approximately 1 to 30 parts per 100 parts by weight of cyclodextrin. The applicant claims the priority of the U.S. application lodged on 23 September - 26 - W-y-r ......... ....... · η; τ. 1991, under nos. 704,347. Lisbon, September 23, 1992. 0 -ΗίΕ.νΐΈ OHCI.iL ΰΛ ΓΕΟΓΕΙΕJADE LNOCSTEUL

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