Cold bond adhesive

Details Cold bond adhesive Cold bond adhesive

2001-12-07

2004-06-22

Wu, David W. (Department: 1713)

Synthetic resins or natural rubbers -- part of the class 520 ser

Synthetic resins

Processes of preparing a desired or intentional composition...

C524S059000, C524S068000, C524S076000, C524S071000, C106S278000, C106S281100, C106S284020, C106S284060

Reexamination Certificate

active

06753362

ABSTRACT:

FIELD OF THE INVENTION
This invention relates to an adhesive composition which is rapidly curable at room temperature used for joining a substrate of construction with a solid capping sheet, particularly bonding a roofing deck or siding member to a polymeric capping member to provide a strong bond therebetween at reduced adhesive cure time.
BACKGROUND OF THE INVENTION
Although cold bond adhesive compositions are known and employed in the construction industry, one of the major objections to their use is the residual unpleasant odor emitted during mixing and curing operations. It is found that the objectionable odor is attributable to the need for high concentrations of aromatic solvents, particularly xylene, toluene and the like. Another objection to these adhesive compositions, e.g. styrene/ethylene/butylene/styrene (SEBS) adhesives, is the long curing time, which in many cases more than 30 days, is required to achieve complete curing and bonding of the substrate to a second member. During the curing period, unfavorable wind or storm conditions often cause “blow-off” or “lift-off” of the second member before bonding can be completed.
Certain polypropylene compositions used as lap, field and trowel adhesives to unite roofing and siding membranes or to seal seams between sheets of such structural coverings required torching in order to cure the polymer and to obtain a strong bond with high peel strength. The process involving heat treatment requires additional equipment for bonding and is associated with many hazards including flammability and injury to the applicator. Further, the step of torching is time consuming and often promotes non-uniformity in the degree and areas of attachment.
Accordingly it is an object of this invention to provide an improved room temperature-curable adhesive system which achieves equal peel strength at least equal to the prior heat cured adhesives and eliminates the dangers associated with torching.
Another object is to provide an adhesive sealant which is deformable in conformity to changes in membrane joints during the process of curing and which possesses high weatherability and thermal stability as well as resistance to degradation by heat, water, chemicals and exposure to ozone.
Another object is to provide a rapid curable cold bond adhesive composition containing a significantly reduced concentration of odoriferous aromatic solvent.
Another object is to provide a cold bond adhesive composition of improved tack and pliability which is readily trowled or mopped on the surface of a substrate.
Still another object is to disclose a commercially feasible and economical process for the preparation of the improved adhesive composition of the present invention.
Yet another object is to provide a cold bond adhesive which reduces cure time by at least 2-fold over others in this category.
These and other objects and advantages will become apparent from the following description and disclosure.
SUMMARY OF THE INVENTION
In accordance with this invention there is provided an adhesive composition which is curable at ambient temperature in less than 20 days to achieve a strong bond between a capping membrane suitably employed in roofing or siding and a roofing or siding base or substrate member which composition essentially comprises a homogeneous 60 to 75% solids mixture of
(a) between about 0.5 and about 15 wt. % of a thermosetting styrene/isoprene/styrene block polymer containing up to 90% styrene;
(b) between about 13 and about 30 wt. % aromatic hydrocarbon solvent containing from about 5 to about 20 wt. % aliphatic hydrocarbon;
(c) between about 20 and about 70 wt. % non-blown asphalt optionally containing a minor amount of blown asphalt;
(d) between about 1 and about 10 wt. % metal silicate and
(e) between about 0.1 and about 5 wt. % of a C
6
to C
16
alkoxyalkyl amine substituted ester of a C
2
to C
12
carboxylic acid as a surfactant.
Optionally the above composition can additionally contain (f) up to 30 wt. % of an anhydrous inorganic filler; (g) up to 10 wt. % reinforcing fibers; (h) up to 5 wt. % water and (i) up to 5 wt. % thermoplastic latex.
It is discovered that at less than 13% of solvent (b), the composition becomes too viscous to achieve homogeneity and requires a curing time extended by one to several days. It is also found that less than 20% asphalt (c) significantly reduces tack; whereas above 70%, the adhesive has diminished spreadability. Accordingly, these limitations are critical to obtaining the homogeneous adhesive composition of the present invention having a rapid cure time decreased at least 2-fold over prior cold bond adhesives.
DETAILED DESCRIPTION OF THE INVENTION
A primary aspect of the present invention involves the bonding of a polymeric capping sheet or member to a non-polymeric substrate used in construction such as a metal, cement or plywood roof deck or siding base member. The composition of suitable capping members are those used commercially and include homopolymers and block polymers of C
2
to C
8
unsaturated hydrocarbons, such as for example polybutadiene, polyisoprene, high density polyethylene, and block polymers of styrene and butadiene (SBS or SBR) with atactic polypropylene (APP) or hydroxylated derivatives thereof (SEPS). Other block polymers, such as styrene/isoprene (SIR), ethylene/propylene/diene (EPDM), ethylene/propylene (EBM) and styrene/ethylene/butylene/styrene (SEBS) also can be employed as capping member sheets. Of these, APP/SBS is preferred for use with the present adhesive composition.
The preferred adhesive of the invention has a Brookfield viscosity of from about 60 to 140 cps and a penetration of from about 50 to 120 decimillimeters (dmm) at 25° C. The preferred concentrations of components in the composition, are by weight, of 1.5-8% (a) block polymer containing 70-85% styrene; 15-22% solvent (b); 25-55% asphalt (c); 6-7% metal silicate (d); 0-1.5% surfactant (e); 0-10% filler (f) and 1-4% reinforcing fibers (g). A weight ratio of 1:8-12 (e) to (f) and a 3-10% concentration of aliphatic hydrocarbon in solvent (b) is optimally employed. Also, a blown asphalt concentration not in excess of 10% in (c) is recommended.
The present adhesive composition can be used as a field adhesive for bonding the substrate to a capping member resulting in a roofing or siding assembly of superior strength. The composition can also be employed as a lap adhesive to seal overlaid sections and side seams of building material sheets or shingles or as a more viscous trowel adhesive, particularly adapted to vertical substrates such as siding. When employed as a field adhesive, a Brookfield viscosity of 60-140 cps, preferably 70-120 cps, using spindle 4 at 3 rpm is most highly recommended. The % solids characterizes the primary distinction among the above specific uses; i.e. the field adhesive desirably contains 60-70% solids; the lap adhesive desirably contains 65-70% solids and the trowel adhesive contains 70-75% solids.
In the above composition, suitable solvents (b) include mineral spirits, toluene, xylene, naphthas and other aromatic hydrocarbons containing 9 to 12 carbon atoms. To minimize the objectionable odor of the monocyclic aromatic compounds, a minor amount of C
6
to C
8
aliphatic hydrocarbon is employed. A particularly preferred solvent mixture contains from about 60 to about 90 wt. % aromatic hydrocarbon, e.g. naphtha, and from about 10 to about 40 wt. % of an individual C
6
to C
8
aliphatic hydrocarbon or a mixture of these aliphatics.
The asphalt of component (c) may be modified with a C
8
to C
12
hydrocarbon, as in cut back asphalts, to increase flowability when desired. The asphalt in the above composition acts as a tackifier and is preferably used in a weight ratio of from about 1:1.34, most preferably from about 1:1.5-3, component (b) to component (c).
The homogeneity of the adhesive composition is enhanced by the metal silicate component (d) which, in concert with the surfactant of component (e), acts to augment wetting and coalescing properties. Suitable metal silicates include substanti

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