12754461 (P.T.A.B. Feb. 17, 2017)

Ex Parte D et al

Patent Trial and Appeal BoardFeb 17, 2017

12754461 (P.T.A.B. Feb. 17, 2017)

United States Patent and Trademark Office UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O.Box 1450 Alexandria, Virginia 22313-1450 www.uspto.gov APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 12/754,461 04/05/2010 Sean Charles D'Silva 7617D 6770 29602 7590 02/17/2017 TOTTNS 1UANVTT T F EXAMINER 10100 WEST UTE AVENUE CHRISS, JENNIFER A PO BOX 625005 LITTLETON, CO 80162-5005 ART UNIT PAPER NUMBER 1786 MAIL DATE DELIVERY MODE 02/17/2017 PAPER Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte SEAN CHARLES D’SILVA and THOMAS E. BURGHARDT Appeal 2015-004500 Application 12/754,461 Technology Center 1700 Before ROMULO H. DELMENDO, LINDA M. GAUDETTE, and MICHELLE N. ANKENBRAND, Administrative Patent Judges. DELMENDO, Administrative Patent Judge. DECISION ON APPEAL The Applicants (hereinafter the “Appellants”)1 appeal under 35 U.S.C. § 134(a) from a final decision of the Primary Examiner to reject claims 15—17.2 We have jurisdiction under 35 U.S.C. § 6(b). We affirm. 1 The Appellants state that the real party in interest is “Johns Manville” (Appeal Brief filed August 26, 2014, hereinafter “Br.,” 1). 2 Br. 1, 4—10; Final Office Action mailed April 1, 2014, hereinafter “Final Act.,” 4—9; Examiner’s Answer mailed December 30, 2014, hereinafter “Ans.,” 2-14. Appeal 2015-004500 Application 12/754,461 BACKGROUND The subject matter on appeal relates to reinforcing fibers having particulate protuberances directly attached to the surfaces thereof (Specification, hereinafter “Spec.,” 1,11. 6—9; Figs. 4 and 4A). According to the Appellants {id. at 1,11. 9-13), the claimed reinforcing fibers may be used to form fiber reinforced products (FRP) or long fiber reinforced products (LFRP) having certain improved characteristics. Representative claim 15 is reproduced from the Claims Appendix to the Appeal Brief, with key disputed limitations highlighted, as follows: 15. Reinforcing fibers selected from the group consisting of glass fibers and carbon fibers and mixtures thereof, having fumed silica particulate protuberances attached directly to the surfaces thereof wherein the particles are physically and/or chemically bonded directly to the surfaces of the fibers, and not part of a coating composition, but with the particles coated with a binder or a sizing composition, and with the particles forming such protuberances having a longest number average dimension within the range of approximately 0.01 nanometer to approximately 30 micrometers. REJECTIONS ON APPEAL The Examiner rejected the claims as follows: I. Claims 15 and 16 under pre-AIA 35 U.S.C. § 102(b) as anticipated by Hawkins et al.3 (hereinafter “Hawkins”); II. Claims 16 and 17 under pre-AIA 35 U.S.C. § 103(a) as unpatentable over Hawkins and Simmons et al.4 (hereinafter “Simmons”); III. Claims 15 and 17 under pre-AIA 35 U.S.C. § 103(a) as 3 US 5,707,734, issued January 13, 1998. 4 US 5,565,049, issued October 15, 1996. 2 Appeal 2015-004500 Application 12/754,461 unpatentable over Gladney et al.5 (hereinafter “Gladney”) and Hawkins; and IV. Claim 16 under pre-AIA 35 U.S.C. § 103(a) as unpatentable over Gladney, Hawkins, and Jaffee.6 (Final Act. 4—9; Ans. 2—14.) DISCUSSION Rejection I The Appellants argue claims 15 and 16 together (Br. 4—6). Therefore, we confine our discussion to claim 15, which we select as representative pursuant to 37 C.F.R. § 41.37(c)(l)(iv). As provided by this rule, claim 16 stands or falls with claim 15. The Examiner found that Hawkins describes every limitation recited in claim 15 (Ans. 2—3). Regarding the limitations highlighted in reproduced claim 15 above, the Examiner found, inter alia, that Hawkins discloses applying a sizing composition including fumed silica particulates on the fiber surfaces and that this technique is indistinguishable from the Appellants’ described method for producing reinforcing fibers having the disputed limitations {id. at 8). The Appellants contend that Hawkins does not anticipate because “[depositing the fumed silica from a coating composition, as in Hawkins, does not provide the required adhesiveness and resulting toughness” that would result from the fumed silica particles being bonded directly to the fiber surfaces (Br. 6). According to the Appellants {id.), “[t]he fumed silica particles of the claimed reinforcing fibers are coated with a binder or sizing 5 US 3,692,507, issued September 19, 1972. 6 US 2003/0113526 Al, published June 19, 2003. 3 Appeal 2015-004500 Application 12/754,461 composition, but they are not applied in one as they are bonded directly to the fiber surface.” The Appellants’ arguments fail to identify a reversible error in the Examiner’s factual findings supporting the anticipation rejection. In re Jung, 637 F.3d 1356, 1365 (Fed. Cir. 2011). The current Specification describes several techniques for preparing the claimed fibers in which the particles are bonded directly to the fiber surfaces, as follows (Spec. 5,11. 6—20) (emphases added): The method of the present invention comprises forming the fibers having particulate protuberances on the surfaces thereof prior to collecting of the fibers into a strand or strands. This is achieved by causing particles to bond to hot surfaces of the freshly drawn fiber or fibers, prior to the coating of the fibers with typical sizing materials or binders. One method involves directing one or more gaseous streams containing suspended particles onto the fibers while the surface of the fibers are still in a molten or otherwise tacky state and elevated temperature, causing the particles to physically and/or chemically bond to the surface of the fibers. Another method directs one or more streams of liquid containing suspended particles onto the fibers while the surfaces of the fibers are still in a molten or otherwise tacky state or at an elevated temperature, causing the liquid to evaporate and the particles to physically and/or to chemically bond to the surface of the fibers. Still another method comprises including particles in any conventional sizing, thus forming a chemical and/or physical bond between the nascent fibers and the particles during the sizing application and/or further processing steps like drying, pelletizing and agglomerating. Hawkins describes a technique that is indistinguishable from one or more of the Appellants’ described techniques. Specifically, Hawkins discloses applying fumed silica—either alone or in combination with optional fibrillary TEFFON®—during fiber formation as a size composition 4 Appeal 2015-004500 Application 12/754,461 using a sizing applicator that applies a coating to the fibers from a coating bath (col. 2,11. 60-66). Hawkins further teaches that “[ajfter application of the fumed silica ... to the glass fibers, the coated fibers can be collected by any convenient means” and that “[i]f desired, the coated fibers can be heated to remove water” (col. 3,11. 6—7). Because Hawkins discloses the same or substantially identical technique as that described in the current Specification, it would reasonably appear that Hawkins’s fibers would have at least some fumed silica particulate protuberances that are attached directly to the fiber surfaces, as required by claim 15. The Appellants’ mere argument to the contrary is insufficient to show otherwise. “Where . . . the claimed and prior art products are identical or substantially identical, or are produced by identical or substantially identical processes, the PTO can require an applicant to prove that the prior art products do not necessarily or inherently possess the characteristics of his claimed product.” In re Best, 562 F.2d 1252, 1255 (CCPA 1977). Accord In re Spada, 911 F.2d 705, 708 (Fed. Cir. 1990) (“[W]e conclude that the Board correctly found that the virtual identity of monomers and procedures sufficed to support a prima facie case of unpatentability of Spada’s polymer latexes . . . .”). The Appellants appear to be arguing that the claim language “not part of a coating composition” precludes the use of a sizing agent to produce the claimed fibers (Br. 5). We disagree. As found by the Examiner (Ans. 8) and as we discuss above, Hawkins’s use of a sizing composition is consistent with the Appellants’ description regarding suitable techniques that may be used to produce particles that are physically and/or chemically bonded directly to the surfaces of the fibers. To the extent that the sizing 5 Appeal 2015-004500 Application 12/754,461 composition may reduce (but not completely eliminate) the number of fumed silica particulates that are directly bonded to the fiber surfaces, we agree with the Examiner’s observation (Ans. 9) that claim 15 fails to specify any degree of adhesiveness or toughness—i.e., the claim fails to specify the amount, degree, and/or percentage of the particles relative to the fibers that must be attached directly to the fiber surface. To the extent that we were to construe the phrase “not part of a coating composition” as a process limitation, the patentability of a product claim rests on the product itself— not the process by which it is produced. Spada, 911 F.2d at 708 (citing In re Thorpe, 111 F.2d 695, 697-698 (Fed. Cir. 1985)). For these reasons, and those well-stated by the Examiner, we uphold Rejection I. Rejection II With respect to Rejection II, based on the combined teachings of Hawkins and Simmons, the Appellants rely on the same arguments offered against Rejection I—i.e., that “Hawkins is deficient” and add that “Simmons does not cure the deficiencies of Hawkins” (Br. 7). As discussed above, however, the Examiner’s anticipation rejection over Hawkins is not “deficient.” Therefore, we affirm Rejection II for the same reasons discussed for Rejection I above. Rejection III The Appellants argue claims 15 and 17 together (Br. 7—10). Therefore, we confine our discussion to claim 15, which we select as representative pursuant to 37 C.F.R. § 41.37(c)(l)(iv). As provided by this rule, claim 17 stands or falls with claim 15. 6 Appeal 2015-004500 Application 12/754,461 The Examiner found that Gladney describes every limitation of claim 15 except that the additives used for treating the fibers are not described as forming “fumed silica particulate protuberances” having “a longest number average dimension within the range of approximately 0.01 nanometer to approximately 30 micrometers” (Ans. 4—5). The Examiner found, however, that Hawkins teaches applying fumed silica having an average particle size up to 10 microns, more preferably between about 1 and about 50 nanometers onto glass fibers {id. at 5). The Examiner concluded that a person having ordinary skill in the art would have combined Gladney and Hawkins in the manner claimed by the Appellants as a matter of combining known elements according to known methods with no change in their respective functions to yield predictable results {id. at 6). The Appellants argue that “[t]he methods of Gladney are for preparing foamable components, which are quite different from [the claimed] reinforcing fibers” (Br. 7). Specifically, the Appellants point out that Gladney teaches a hydration step and that “while additives can be added to the components of Gladney, they are of a particular type designed for the foamable components to be prepared”—i.e., those that “impact the molecular structure of the silicates” {id. at 8) (quoting Gladney, col. 2,11. 34-45). Thus, according to the Appellants {id.), “the addition of fumed silica to be bonded to the surface of glass or carbon fibers is not contemplated or suggested in Gladney” {id.). Furthermore, the Appellants argue that “Hawkins cannot cure the deficiencies of Gladney” because “Hawkins is deficient in that the fumed silica coating is applied from a sizing or coating composition” {id. at 9). 7 Appeal 2015-004500 Application 12/754,461 We disagree with the Appellants that Hawkins is “deficient” for the reasons already discussed above for Rejection I. As for the argument that Gladney relates to preparing foamable components, we discern no error in the Examiner’s finding that Gladney discloses fibers, which are treated during their formation with dry particulate powders or solid particles in a gaseous stream and which are indistinguishable from the Appellants’ claimed reinforcing fibers (Ans. 4, 11). See Gladney’s column 3, lines 49- 54 (“The silicate glass particles or fibers have a high specific surface area and may be treated while forming or immediately after forming with additives such as . . . dry particulate powders of insolubilizing agents, complexing agents, and mineral or organic fillers'1'’) (emphases added). The fact that Gladney also teaches foams does not negate Gladney’s teachings relating to fibers. Finally, regarding the argument that Gladney teaches the use of additives that affect the molecular structure of the silicates, the Examiner correctly found (Ans. 11) that Gladney’s disclosure in column 2, lines 34-45, relates to other prior art products (“There exists an extensive body of prior art concerning the use of alkali metal silicates . . . .”), which are unrelated to the disclosure upon which the Examiner’s rejection is based. For these reasons and those given by the Examiner, we uphold Rejection III. Rejection IV The Appellants argue that “[t]he proposed combination of Gladney and Hawkins is deficient for the reasons discussed above” and that “Jaffee does not cure the deficiencies” (Br. 10). Because the Examiner’s rejection based on Gladney and Hawkins is not “deficient,” we uphold Rejection IV for the same reasons given above for Rejection III. 8 Appeal 2015-004500 Application 12/754,461 SUMMARY Rejections I—IV are affirmed. Therefore, the Examiner’s final decision to reject claims 15—17 is affirmed. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1). AFFIRMED 9