This Class Definition covers the subject matter of Class 523 and of Class 524. Class 524 is a continuation of the subject matter of Class 523. Class 523, subclass 1 serves as the parent subclass to all other Class 523 subclasses and to all Class 524 subclasses.
The terms "desired" and "intentional" have been used interchangeably throughout the schedule and definitions.
A. GENERAL SUMMARY OF SUBJECT MATTER WITHIN THIS CLASS
In order for a patent claim to be proper for this class, there must be a desire or intent to produce a composition of a solid polymer or SICP and a nonreactant material (NRM); this includes the treatment of a composition to produce a desired or intentional composition. The NRM may be added to the solid polymer, to a specified intermediate condensation product (SICP), to specified polymer-forming ingredients (SPFI), or to materials specifically denoted as forming solid polymers.
A desired composition is formed when the nonreactive material is desired to be present or operative in the ultimate system under consideration. An ingredient present only as an innocuous impurity, residue, or by-product signifies a composition but not a desired composition.
Statements that a material may be left in the polymer composition or that a material is inert or inoffensive therein are not the type of statements that qualify to bring a patent into this area. There must be a deliberate attempt to incorporate these materials in some degree.
Adding materials, all of which are to be removed in a later process, is not, per se, forming a desired or intended composition. The intended inclusion of some materials, however, would be within the purview of this class even if other materials were intermittently removed.
Patentees' statements as to functions of material (e.g., catalyst, reactant, solvent, etc.) are to be taken literally and are to be followed. An exception to this rule is in those subclasses wherein specialized rules have been enumerated. An added material which disappears completely so that the final composition prior to use is devoid of the material or of a reaction product or residue thereof is not classified as an NRM. An example of this is the use of a blowing agent to mix a composition without foaming.
When doubt is present as to whether a claimed substance is truly a composition for this area, as opposed to being a product proper for any of Classes 525-528, such doubt is to be resolved by classifying the claims in the appropriate area(s) of Classes 525-528.
In those instances wherein a claim or claims is (are) directed to alternatively forming a composition proper for this area or forming a product proper for any of Classes 525-528, classification is then proper in this Composition area with cross-referencing into the appropriate area(s) of Classes 525-528.
Coating compositions are specially included as compositions proper for this class, although the final product after application may be no more than a solid polymer on a substrate. Coating compositions are a general exception to the type of compositions that are provided in this class, in that for the most part, the added material usually stays with the polymer and can be found with it during the use of the polymer.
B. NONREACTANT MATERIAL (NRM)
For purposes of this class, a nonreactant material (NRM) has a restricted meaning and is other than the following:
5. Material disclosed to form a solid polymer either with nonspecified polymer-forming reactants or with specified polymer-forming reactants.
6. Material disclosed as chemically reacting with a solid polymer or solid specified intermediate condensation product, so as to add atoms thereto or remove atoms therefrom. 7. Material disclosed as assisting in chemical reaction, e.g., solvents, catalysts, potentiators, etc.
8. Natural rubber or modified natural rubber.
Materials in steps 3-7 above may in certain instances be regarded as nonreactants, such as when the disclosure of the patent is of a nature as to recite at least a function for the added material besides acting as a reactant or assisting in a reaction. For instance, a disclosure noting the use of a catalyst in greater than necessary quantities so that a desired residue remains after reaction to stabilize product would be proper herein.
To be considered a nonreactant material, the added material must not react with the solid polymer, natural or modified rubber, SPFI, or solid SICP. This does not mean that the nonreactant material need be totally unreactive. For instance, it can react with itself or with another material in the composition and still be considered a nonreactive material if the final product after the reaction has occurred is desired.
For purposes of this class, the addition of a thixotropic agent to a composition is sufficient to qualify as the preparation of a desired composition.
Physical or chemical treatment of a previously formed composition without the addition of a NRM is included herein if a desired or intentional composition is thereby formed.
C. RELATIONSHIP OF THE TERMS NONREACTANT MATERIAL (NRM) ANDDESIGNATED NONREACTANT MATERIAL (DNRM)
The distinction between the subclasses which recite designated nonreactant material and those that recite NRM is that:
1. Nonreactant material is when
a. a specified amount of nonreactant material is noted (e.g., 6 per cent of a filler, etc.) or
b. a relationship amount exists between the solid polymer or SICP and the NRM (e.g., two times the amount of polymer to additive, etc.) or c. the NRM is identified in the clam by more than mere function (e.g., organic plasticizer, hydrocarbon solvent, metal filler, etc.) or
d. the NRM is identified by at least one chemical atom (e.g., sulfuric acid, water, hydrocarbon, etc.) or
e. the NRM is identified as a generic type of chemical compound (e.g., alcohol, ether, etc.)
2. Designated nonreactant material is a material wherein at least one of the chemical atoms can be deduced with
certainty. Materials noted in steps 1, d and e above would be considered as DNRM's as well as would be hydrocarbon solvent in step 1, c above. For purposes of this class, organic material although inherently reciting the presence of a carbon atom is considered to be too broad. An exemplary list of materials to be regarded as DNRM's is as follows: metal hydrate, chalcogen, carboxylic acid, peroxy, peroxide, latex, alkali or alkaline earth metal, transition metal, halogen, proton donor, sulfide, drying oil, fat, fatty acid or ester, water, carbon black, etc. This list is by no means limited to the above noted examples.
The following list is not exhaustive and merely enumerates certain materials that will not be considered as DNRM's (e.g, organic compound, metal containing, inorganic compound, organometallic compound, solvent, wax, magnetic, hydrophobic, hydrophillic, antiplasticizer, plasticizer, filler, preservative, antioxidant, antiozonant, stabilizer, lubricant, fibrous additive, particulate additive, liquid, solid, gas, dispersant, emulsifier, crystalline, plastic, fluorescent, phosphorescent, luminescent, deliquescent, drier, dessicant, humectant, blue color, numerically described without providing a chemical atom, Lewis acid or base, mineral, organic solvent, co-solvent, Ziegler or Natta catalysts, alfin catalyst, free radical, amphoteric, anionic, ionic, denaturant, electrostatic, dielectric, conductor, insulator, etc.).
D. RULES CONCERNING THE USE OF DNRM IN THE SCHEDULE
For purpose of this class, certain rules as to patent placement have been adopted. These rules only pertain to the subject matter under Class 523, subclass 1, and are not to be extrapolated to other areas in the 520 series or to any other class.
The rules adopted pertain to the use of the term "DNRM"; they are as follows.
In those subclasses which recite a designated nonreactant material (DNRM) in the title, the indented subclasses merely pertain to a further elaboration of the DNRM and do not relate to any other material. An example of this is subclass 159 in Class 524 which recites nitrogen and is indented under aryl group (subclass 158) which is in turn indented under sulfur bonded directly to three oxygen atoms DNRM (subclass 157). The proper meaning of subclass 159 is that a single nitrogen containing compound also containing at least one aryl group and at least one sulfur atom bonded to three oxygen atoms is utilized as a DNRM.
In those subclasses which recite "containing .......DNRM", the use of the word "containing" is consistent with the general use in other classes. An example of this is subclass 759 in class 524, which recites, "........... containing carboxylic acid or derivative DNRM", and is indented under subclass 755, ether compound DNRM. The proper meaning of
subclass 759 is that a single DNRM compound may be present which has both ether and carboxylic acid or derivative groups, or that two separate DNRM's may be present, one of which contains an ether group and the other a carboxylic acid or derivative group. In those subclasses which recite "with", under a specified DNRM, such use is consistent with the term as used in other classes, in that, at least two separate materials must be present, one of which is the DNRM and the other the "with" material.
E. GENERAL RULES AS TO PATENT PLACEMENT
1. In those situations wherein a material reacts with another material to give an in situ product, original classification is as follows: If the materials reacted occur higher in the subclass array than the material which is the result of the reaction, then classification is proper on the basis of the original reactants. It would be desirable in either event to cross-reference the reactant or product produced.
2. A combination of treating a polymer composition containing a NRM that is prepared by an in situ preparation with another nonreactant material places the document in the area provided for an admixing a preformed solid polymer with a NRM.
3. Carbon (in any of its allotropic forms), titanium dioxide, silica, glass, sand, quartz, water, benzene, xylene, or toluene will be regarded in the absence of any disclosure to the contrary as being nonreactive with a solid polymer, SICP, or SPFI.
4. An ingredient having a defined function as a solvent, dispersing medium, or flux will be regarded in the absence of disclosure to the contrary as being nonreactant when added to a preformed solid polymer or performed SICP and as forming a desired composition therewith.
5. An ingredient having a defined function as a solvent, dispersing medium, or flux will be regarded in the absence of disclosure to the contrary as not forming a desired composition with a solid polymer when such materials are added to a SPFI system. There must be an expressed intent to incorporate these materials with the solid polymer when the polymer is subsequently formed.
6. Addition of a material during polymer formation and in which the disclosure is silent as to reaction or nonreaction (other than SPFI, catalyst, curing agent) will be regarded as a reactant.
7. Components of a solid polymer-forming system which are not, per se, the type that qualify as solid polymer-forming ingredients (SPFI) are not considered NRM's.
8. Ingredients which are not the necessary solid polymer-forming ingredients (SPFI) but which are disclosed as reacting with specified polymer-forming ingredient system are not considered NRM's.
9. In the absence of disclosure to the contrary, an ingredient having a defined utility as a plasticizer, filler, dye, pigment, or preservative (other than a solid polymer, SPFI, or SICP) will be regarded as being nonreactive (with the solid polymer, SPFI, or SICP). 10. In the absence of disclosure to the contrary, a peroxy compound, an ethylenic compound, or sulfur when added to a solid polymer will be regarded as reactants.
11. Reacting a material with a filler, modifier, etc., is presumed to alter the chemical nature of the filler, modifier, etc., and thereby produce a new and different chemical entity. However, surface modification when specially designated as such, or coating or impregnating a material such as a filler, is presumed as forming a composition of the filler, modifier, etc., and the coating or impregnating agent or as a composition of the substrate material and the surface modified chemical entity.
12. A coupling or bridging agent is presumed to act as a chemical reactant between the polymer and additive and, if technically viewed, no composition would result therefrom. For purposes of this class, however, the use of a coupling or bridging agent between a polymer and an additive is viewed as a surface phenomenon and therefore a composition does in fact result between (a) the polymer which is chemically linked to the coupling or bridging agent, and (b) the additive. Classification on the basis of the additive is therefore proper.
F. EXAMPLES OF PATENT PLACEMENT WITHIN THIS CLASS AND CLASS524
Patent claims:
1. Polyethylene admixed with 2 per cent of a stabilizer. Original classification is with the polymer in Class 524, subclass 585. This patent initially is proper for Class 524, subclass 1; however, it does not meet the limitations of Class 524, subclass 80, since 2 per cent is not sufficient to be considered DNRM.
2. Polyethylene admixed with 2 per cent of a stabilizer and a hydrocarbon solvent. Same result as in (A) above, since 2 per cent of a stabilizer is not considered sufficient to be DNRM and hydrocarbon has been specifically excluded from class 524, subclass 80.
3. Polyethylene admixed with 2 per cent carbon black and water. Same result as in (A) above; both carbon black and
water have been specifically excluded as DNRM's in class 524, subclass 80.
4. Polyethylene admixed with a halogenating agent and with a phosphorus stabilizer for the halogenated polyethylene. Since a halogenating agent cannot be considered a NRM, classification is solely on the basis of the phosphorus stabilizer.
5. Polyethylene admixed with stabilizer composition consisting of an organophosphorus additive and an organotin compound. Since both additives qualify as DNRM's, in that, a chemical atom is known in each of the additives, original classification in the phosphorus subclass would be proper in Class 524, subclass 115 rather than in the tin subclass (subclass 178) which is lower in the schedule array.
6. Polyetheylene admixed with a stabilizer compound consisting of an organic compound and an organotin compound. Disclosure notes that an organophosphorus compound can be one of the organic compounds. Since the claim is not limited to any organic compound and an organic compound is not a DNRM under Class 524, subclass 80, original classification is proper with the organotin compound in Class 524, subclass 178. The sole criterion to be evaluated is whether the material added is a DNRM. Only those materials which are DNRM's are to be evaluated for classification purposes. 7. Polyethylene admixed with a combination of an organophosphorus stabilizer and an organotin stabilizer. Disclosure is limited to polymerizing ethylene in the presence of the phosphorus stabilizer and after solid polymer formation, admixing the organotin stabilizer therewith. Classification is on the basis of the organotin stabilizer for the reason that admixing with a performed solid polymer or SICP is superior in the classification array to in situ polymer formation. No weight can be given for original classification purposes in class 524, subclass 1, to the fact that the organophosphorus was added during the solid polymer formation state. A cross-reference to class 524, subclass 706, may be appropriate to cover the subject matter relating to the adding of the phosphorus material.
8. Natural rubber, per se, or modifed forms thereof or mixtures of natural rubber wherein there is no polymer proper for Class 520, subclass 1, are to be found in Class 524, subclass 575.5. When, however, a final polymer is proper for Class 520, subclass 1, then a natural rubber or modified form thereof in a composition therewith is to be considered as if it were derived from a monomer containing two ethylenic groups, i.e., polyisoprene. The following are examples drawn to the patent placement of natural rubber in this class.
a. Natural rubber + glass + polybutadiene - - -> is to be found in Class 524, subclass 526. This composition is considered as a mixture of two polymers derived from ethlenic reactants only.
b. Natural rubber reacted with styrene - - -> modified natural rubber to which glass is added. This composition is to be found in Class 524, subclass 534. The reaction of natural rubber and an ethylenic reactant is considered to be a product proper for Class 520, subclass 1.
c. Natural rubber + glass is to be found in Class 524, subclass 575.5.
G. SCHEDULE OUTLINE OF CLASS 523 AND CLASS 524
The schedules (for Class 523 and Class 524) are divided into a number of parts, each of which is distinct and provides for different types of subject matter. In the class definition of this class, the SEARCH THIS CLASS, SUBCLASS notes andthose SEARCH CLASS notes relating to Class 524 are a breakdown on the major areas and indicate the type of subject matter provided therein.
LINES WITH OTHER CLASSES
Rules for determining whether a desired or intentionally formed composition or a process of preparing a desired or intentionally formed composition is proper subject matter for Class 523, subclass 1 or is proper subject matter for Classes 525, 526, 527, or 528:
Class 523, subclass 1 provides basically for two types of subject matter:
A. Admixing a preformed solid polymer or SICP with a nonreactant material. B. Admixing a nonreactant material with a reactant and then polymerizing said reactant so as to form a polymer proper for Class 520, subclass 1 in the presence of the nonreactant material; so-called in situ system.
Included Under (A) Above As To Process Is:
1. Mixing a nonreactant material with a solid polymer or SICP to produce a desired composition when:
a. a specified amount of nonreactant material is noted (e.g., 2 per cent of an emulsifier, etc.) or
b. a relationship amount exists between the solid polymer or SICP and the NRM (e.g., two times the amount of polymer to additive, etc.) or
c. adding nonreactant material which is identified in the claims by more than mere function (e.g., organic plasticizer, hydrocarbon solvent, metal filler, etc.) or
d. adding nonreactant material which is identified by at least one chemical atom (e.g., sulfuric acid, water,
hydrocarbon, etc.) or
e. adding nonreactant material which is identified as a generic type of chemical compound (e.g., alcohol, ether, etc.) or
f. the nonreactant material is mixed with the SICP or solid polymer and the process of brining the two materials together is more than a mere statement of mixing or blending, or
g. two or more process steps are claimed, e.g., polymerizing followed by blending, mixing two polymers followed by adding or cooling, etc.
Included Under (B) Above As To Process Is: 1. Polymerizing in the presence of a nonreactant material to produce a desired composition when:
a. a specified amount of nonreactant material is noted, e.g., 4 per cent of a NRM, etc., or
b. a relationship amount exists between the reactants and the NRM, or
c. the nonreactant material is identified in the claim by more than mere function, e.g, organic plasticizer, metal filler, etc., or
d. the NRM is identified by at least one chemical atom (e.g., halogen, water, etc.) or
e. A step of polymerizing in the presence of a nonreactant material recites some process parameter.
Class 520 provides for compositions which are prepared utilizing nonreactant materials enumerated above in steps A, 1, a-e, and B, 1, a-d.
Products (e.g., products by process, etc.) which are the result of processes involving nonreactant materials which do not fit under the type of nonreactant materials required in steps A, 1, a-e and B, 1, a-d are classified below in Classes 525, 526, 527, and 528.
Under the guidelines enumerated above, it is quite possible for a process of preparing a composition to be classified in Class 523, subclass 1 while the composition produced is classified in another class under the 520 series.
In those situations where a material is added during polymerization and is a nonreactant, such patent will not be placed in this class but rather in Classes 525, 526, 527, or 528 unless a recitation is made in the disclosure that a composition is in fact obtained and is desired.
The difference between Class 524, subclasses 1+ and Class
524, subclasses 700+ is the time of addition. If a nonreactant material intended to be in the final product is added subsequent to polymerization, classification in this area is proper; if it is added during polymer formation, it is proper in class 524, subclasses 700+. If a patent claims a composition of a polymer and NRM, it will be necessary to scrutinize the disclosure of the document to ascertain the time when the NRM was added, since classification is primarily based on the process of preparing the intended composition. Disclosures which are generic to adding to a preformed polymer or to forming a polymer in situ in the presence of a NRM should be placed in this area as an original in Class 524, subclasses 1+ and cross-referenced into Class 524, subclasses 700+.
In Class 524, subclasses 268, 273, 278, and 279 are noted as containing a particular chemical atom. Classification in these subclasses is not only on the monomer utilized in preparing the polymer but also on any subsequent treatment to incorporate the desired chemical atom therein.
SEE OR SEARCH THIS CLASS, SUBCLASS:
1, (generic subclass)
100, through 181, (utility area) for certain designated utilities. This area has no generic subclass, and utilities which are not enumerated are classified in the subclasses below on some other basis. In order for a patent to be classified herein as an original, there must be a claim to the noted utility or the total disclosure in the patent must be directed to the provided for utility. this area provides for the composition or for methods of preparing or treating the composition. The utility in the claim need not be limited to the provided utility as in a claim wherein two or more functions are ascribed to a composition. This area does not differentiate (except where specifically enumerated) between compositions as a result of admixing with a solid polymer or a composition as a result of in situ preparation of a desired composition. Patents where the disclosure specifically states the essentiality of a combination of multiple ingredients for the claimed utility to be effective, yet where the claims are limited to a subcombination of said ingredients (a polymer or SICP plus a nonreactant material) would be classified in subclasses 100-181 provided that the desired utility is claimed or solely disclosed.
200, through 223, (physical characteristics area) for certain physical characteristics of the nonreactant material or of certain materials which are in admixture with the nonreactant material. The scope of the subclasses varies to designate what is the physical characteristic necessary and what part of the total composition must possess this characteristic. This area has no generic subclass, and physical characteristics which are not specifically enumerated in the schedule are classified below on some other
basis. This area provides for the composition and also for the process of preparing same. This area does not differentiate (except where specifically enumerated) between a composition as a result of admixing with a solid polymer or a composition as a result of in situ preparation of a desired composition.
300, through 353, (manipulative processes area) for certain designated processes of preparing or treating a composition. This area does not provide for products, e.g., product by process claims, etc. This area has no generic process subclass and therefore processes not covered under the ambit of the provided subclasses are classified below on some other basis. This area does not differentiate (except where specifically enumerated) between a composition which is a result of admixing with a solid polymer or a composition as a result of in situ preparation of a desired composition. For processes falling under subclasses 300 to 353, the process steps which are the basis for classification must relate to treating or forming the desired composition. Preliminary process steps, relating to ingredients which are not themselves intentional compositions for purposes of Class 523, subclass 1, are not controlling for purposes of classification and such processes are classified below on some other basis.
375, (radioactive or inert gas compound area) special subclass for radioactive additives or for inert gas compounds. This area provides for compositions as well as processes of preparing or treating. This area is generic to any composition (i.e., in situ or admixing).
400, through 468, (epoxy area) for admixing a NRM with a material containing more than one epoxy group per mole. These subclasses provide for compositions as well as processes of preparing or treating same. This area does not differentiate between solid or nonsolid polymers derived from epoxy-containing materials or the treatment of solid or nonsolid polymers to produce an epoxy-containing material.
500, through 527, (polyester and unsaturated reactant area) for preparing a composition of a nonreactant material and a polyester together with an unsaturated reactant. This area is analogous to the area above (epoxy) in that solid or liquid polyesters have not been separated and are treated identically. This area, as the area above provides for compositions, processes of preparing or treating.
REFERENCES TO OTHER CLASSESSEE OR SEARCH CLASS
524, Synthetic Resins or Natural Rubbers,
1, generic subclass for admixing a preformed solid polymer or a preformed SICP with a nonreactant material) provides for processes of preparing a composition, for the composition
prepared, or for processes of chemically treating a composition or the chemically treated compositions thereof. Each of the following subclasses, unless otherwise indicated, provides for compositions as well as processes. subclasses
2 through 79, for certain special concepts, e.g., protein or biologically active polypeptide additive, carbohydrate, or derivative additive, etc.
80 through 456, for admixing a designated nonreactant material with a solid polymer or SICP. These subclasses also exclude certain materials which could be considered "designated" since a chemical atom is noted. The materials excluded are limited to those enumerated as follows: (a) TiO2: - in any form, (b) Carbon - in any form (e.g., carbon black, lamp black, graphite, etc.) (c) Halogenated hydrocarbon, (d) Hydrocarbon, (e) Silica - in any form (e.g., SiO2, glass, quartz, sand, novaculite, etc.), and (f) Water - in any of its physical forms.
457 through 461, for a special area which provides for polymerizing in the presence of a preformed SICP or solid polymer and in the presence of a nonreactant material so as to form an aqueous dispersion, latex, suspension, or emulsion.
462 through 473, for a special area which provides for certain halogenated hydrocarbons which have been excluded by subclasses 80-456 as nonreactant materials.
474 through 491, for a special area which provides for certain hydrocarbons which have been excluded by subclasses 80-456 as nonreactant materials.
492 through 494, for a special area which provides for certain silicon materials as nonreactants which have been excluded by subclasses 80-456.
495 and 496, for a special area which provides for carbon as a nonreactant material when certain specific numerical limitations are claimed. Carbon as a nonreactant material has been excluded by subclasses 80-456.
497, for a special area which provides for TiO2 as a nonreactant additive when certain specific numerical limitations are claimed. TiO2 as a nonreactant material has been excluded by subclasses 80-456. 498 612, for solid polymers or SICP admixed with nonreactant materials. Since certain common species (e.g., SiO2, glass, water, etc.) have been excluded from subclasses 80-456 above and since those same subclasses above also exclude an amount of material as being a DNRM, per se, those materials in combination with a polymer or SICP are provided for in this area. This area also
provides for processes of preparing its own compositions or for processes of treating compositions proper for this area. Patents in this area are placed on the basis of the reactants originally present in preparing the solid polymer or SICP, e.g., mixing chlorinated polyethylene with carbon black is classified with ethylene, etc.
650, for adding an inorganic water settable material to a solid polymer-forming system. The water settable ingredient may be a reactant or nonreactant. This subclass provides for compositions as well as processes of preparing or treating.
700 848, for adding an NRM to a solid polymer-forming system; so-called in-situ compositions. These subclasses provide for processes for preparing a composition, for the composition prepared, or for processes of chemically treating a composition or the chemically treated compositions thereof. Each of the subclasses indicated provides for compositions as well as processes. The following is a more detailed description of subclasses 700-848. Subclasses 700 through 796 provide for polymerizing in the presence of a designated nonreactant material. This area, however, excludes certain materials which could be considered "designated" since a chemical atom is recited (i.e., carbon, TiO2, water, hydrocarbon, SiO2, ass). Subclasses 797 through 799 provide for polymerizing in the presence of a NRM, carbon, TiO2, water, hydrocarbon, SiO2, or glass when the chemical reactants forming the solid polymer are protein or biologically active polypeptide, natural resins, lignin, or tannin. Subclasses 800 through 846 are subclasses for adding water to a polymer-forming system and forming a polymer composition therewith. Classification in this area is primarily on the monomer system utilized. Subclasses 847 and 848 are subclasses drawn to processes of polymerizing in the presence of certain hydrocarbons, or in the presence of carbon, TiO2, glass, or SiO2, which is described by specific numerical limitations.
849 through 881, for polymerizing a monomer system in the presence of a NRM or in the presence of carbon, TiO2, glass, or SiO2. (Classification in this area is primarily on the monomer system utilized.)
900 through 924, for cross-reference art collections pertaining to subject matter in Class 523, subclass 1.
525, Synthetic Resins or Natural Rubbers, appropriate subclasses, for a mixture of a synthetic resin appropriate under Class 520,
1, and a natural rubber (i.e., polyisoprene), and for patents in which a dispersing medium of flux is polymerizable or resinifiable to produce the same synthetic resin as that dispersed, or for a synthetic resin disclosed as a filler,
dye, pigment, or preservative in another synthetic resin.
526, 527, and 528, Synthetic Resins or Natural Rubbers, appropriate subclasses, for a composition of a polymer proper for those classes admixed with a broadly claimed nonreactant material not identifiable by a chemical atom or amount; or for a process of preparing a composition wherein the nonreactant material is not identifiable by a chemical atom or amount and wherein the process of forming the composition recites no process condition other than mere polymerizing. See
480+, of Class 528 for processes of treating a polymer not involving a chemical modification of the polymer, by the addition of a material thereto, and for chemically modifying material other than the polymer. Subclasses 480+ also provide for processes of admixing with a broadly claimed nonreactant material.
588, Hazardous or Toxic Waste Destruction or Containment, 255, for a polymer composition containing hazardous or toxic waste used to contain the waste and prevent its release into the environment.
GLOSSARY:
For purposes of this class, the abbreviations in this Glossary have been used in the schedule and definitions.
DNRM
Designated nonreactant material (as discussed in this class definition)
NRM
Nonreactant material (as discussed in this class definition)
SICP
Specified intermediate condensation product (consistent with Class 520 Glossary)
SP
Solid polymer (consistent with Class 520 class definition)
SPFI Specified polymer-forming ingredients (consistent with Class 520 Glossary)