11624057 (P.T.A.B. Mar. 21, 2013)

Ex Parte Alary et al

Patent Trial and Appeal BoardMar 21, 2013

11624057 (P.T.A.B. Mar. 21, 2013)

UNITED STATES PATENT AND TRADEMARKOFFICE 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. 11/624,057 01/17/2007 INV001Jean Andre Alary 09157.0011-01000 5941 22852 7590 03/21/2013 FINNEGAN, HENDERSON, FARABOW, GARRETT & DUNNER LLP 901 NEW YORK AVENUE, NW WASHINGTON, DC 20001-4413 EXAMINER KEMMERLE III, RUSSELL J ART UNIT PAPER NUMBER 1741 MAIL DATE DELIVERY MODE 03/21/2013 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 JEAN ANDRE ALARY and THOMAS PARIAS ____________ Appeal 2012-001919 Application 11/624,057 Technology Center 1700 ____________ Before RICHARD E. SCHAFER, CATHERINE Q. TIMM, and GRACE KARAFFA OBERMANN, Administrative Patent Judges. OBERMANN, Administrative Patent Judge. DECISION ON APPEAL Appellants seek relief from the final rejection of claims 55-74 and 76- 80 directed to a method of making a high-strength proppant or anti-flowback additive. The Examiner rejects claims 55-61, 63, 68-73 and 76-80 as unpatentable under 35 U.S.C. § 103(a) over Cooke (US 4,068,718, issued January 17, 1978) in view of Graham (US 3,497,008, issued February 24, 1970). Ans. 4. The Examiner rejects claims 62, 64-67 and 74 as unpatentable under 35 U.S.C. § 103(a) over Cooke in view of Graham and Brannon (US 2006/0258546, published November 16, 2006). Appeal 2012-001919 Application 11/624,057 2 We AFFIRM.1 The independent claims are 55 and 80. Appellants’ arguments are directed to the patentability of claim 55. See App. Br. 10 (summary of argument, focusing on claim 55); see also id. at 20 (raising no new arguments as to claim 80). Our analysis of claim 55, which reads as follows, is dispositive of all issues raised in this appeal: 55. A method of making a high-strength proppant or anti-flowback additive comprising sintering a rod-shaped article made from a milled composition comprising at least about 80% by weight alumina and between about 0.15% and about 3.5% by weight TiO2. There is agreement that Cooke discloses a method of making a high- strength proppant comprising sintered bauxite. Ans. 4 (citing Cooke 3:26- 29); App. Br. 13 (challenging Cooke only to the extent that it fails to disclose the specified range of TiO2 content and the specified rod shape). Appellants challenge the Examiner’s finding that the applied art suggests a proppant having a TiO2 content of “between about 0.15% and about 3.5% by weight” as specified in claim 55, because “the only specific example” disclosed in Cooke “includes 4.55% TiO2” by weight, using ALUNDUM 75 brand bauxite. App. Br. 15 (citing Cooke 3:50). Cooke identifies a second brand of acceptable bauxite (SA LIONITE) and, furthermore, generally discloses that the proppants of “the present invention may be prepared from natural bauxite.” Cooke 3:13-14, 4:19. It is beyond dispute, and Appellants admit, that the TiO2 content of natural bauxite is “typically from about 1% to about 5% by weight[,]” Spec. ¶ [017], 1 A hearing was held on March 13, 2013, in this case and related Appeal No. 2012-007158. A decision in Appeal No. 2012-007158 is mailed simultaneously herewith. Appeal 2012-001919 Application 11/624,057 3 which significantly overlaps the specified range of “between about 0.15% and about 3.5% by weight[.]” Claim 55; Ans. 4-5. The evidence supports the Examiner’s view that Cooke is not limited by the specific example that discloses a proppant having a TiO2 content of 4.55% by weight. Ans. 8-9. The Examiner’s position is based on the fact that the prior art TiO2 range significantly overlaps the specified range. Compare Claim 55 (specifying a TiO2 range “between about 0.15% and 3.5% by weight”) to Cooke (specifying natural bauxite as the proppant material) and Spec. ¶ [017] (admitting that natural bauxite “typically” comprises TiO2 in a range “from about 1% to about 5% by weight”). When a range recited in a claim overlaps a range disclosed in the prior art, a prima facie case of obviousness typically exists and the burden of proof is shifted to the applicant to show that the invention would not have been obvious. In re Peterson, 315 F.3d 1325, 1329-30 (Fed. Cir. 2003). The Examiner acknowledges that “Cooke does not disclose that the proppant be rod shaped” as specified in claim 55. Ans. 5. On the contrary, “Cooke discloses [that] the proppants are preferably spherical[.]” Ans. 11 (citing Cooke 3:36-44). The Examiner thus turns to Graham, which discloses that, although “[s]pherical particles” are “generally acknowledged to be the most effective proppants” for use in subterranean hydraulic fracturing methods, selecting proppants “having opposing parallel linear surface elements[,]” such as “rods,” in fact provides “improved fracture conductivity due to the superior ability of such particles to resist crushing and embedment, and due to their ability to provide increased proppant permeability in multilayer packs.” Graham 2:6-8; 3:25-33, 35. Appeal 2012-001919 Application 11/624,057 4 Appellants appear to select a rod shape over a spherical shape for the exact same reasons as Graham, namely, to achieve “superior conductivity and permeability of the rod-shaped proppants” as well as a desired “breaking behavior under closing pressure.” Spec. [061].2 Appellants’ argument that Graham does not relate to high-strength proppants is unconvincing, App. Br. 17, because Graham discloses “sintered alumina” proppants, Graham 3:66-69, which according to Appellants’ written description, are “high strength” proppants. Spec. [029]-[030]; see id.at [016], [019]. In any event, a skilled artisan would have expected Graham’s reasons for selecting a rod shape, which include “the superior ability of such particles to resist crushing[,]” Graham 3:30-31, to be “applicable to the full range of proppants, no matter what strength category they are in.” Ans. 10. Appellants argue that Cooke teaches away from rod-shaped proppants but, by way of support, rely on Cooke’s stated preference for spheres over other shapes. App. Br. 18 (citing Cooke 2:13-15; 3:36-44; 8:32-36). Appellants also argue that Cooke’s preference for spheres is “more credible” than Graham’s teachings because Cooke is a more recent reference. Reply Br. 5; see App. Br. 16. However, the rod shape patented by Graham does not become patentable again by virtue of Cooke’s stated preference for spheres over other shapes. See In re Gurley, 27 F.3d 551, 554 (Fed. Cir. 1994). Moreover, “[t]he mere age of the references is not persuasive of the unobviousness of the combination of their teachings, absent evidence that, notwithstanding knowledge of the references, the art tried and failed to solve the problem.” In re Wright, 569 F.2d 1124, 1127 (CCPA 1977). 2 A proppant is designed to resist closure stress when packed in a fracture formed by hydraulic fracturing of an oil well bore. See Spec. [001]-[009]. Appeal 2012-001919 Application 11/624,057 5 On this record, the Examiner makes out a prima facie case that the subject matter of claim 55 would have been obvious over the applied art. A question remains whether Appellants come forward with evidence sufficient to rebut that prima facie case. Appellants argue that the Examiner fails to consider evidence in this regard. App. Br. 34 (Examiner “discounts and appears to ignore” paragraphs 12 and 13 of the Parias Declaration). It is apparent from the record before us that the Examiner fully considers the evidence advanced by Appellants but accords it very little weight. See, e.g., Ans. 11 (acknowledging that Appellants’ arguments regarding “the claimed titania range” are made “with support from the Parias declaration” but determining that Appellants’ evidence is “not entitled to the weight desired” by Appellants because it is based “mainly [on] the belief of the inventor, and [is] unsupported by data”); see Ans. 12-13 (discussing Appellants’ proffered evidence regarding skepticism of others in the field, and properly weighing that evidence against the facts that support a conclusion of obviousness). Like the Examiner, we have thoroughly considered the evidence advanced by Appellants, but in view of significant shortcomings therein, which we discuss below, that evidence is insufficient to overcome the strong prima facie showing of obviousness made out by the Examiner in this case. See Sud-Chemie, Inc. v. Multisorb Techs., Inc., 554 F.3d 1001, 1009 (Fed. Cir. 2009) (“evidence of unexpected results and other secondary considerations will not necessarily overcome a strong prima facie showing of obviousness”). For example, regarding the criticality of the range of TiO2 content specified in claim 55, Appellants’ evidence is unconvincing because it consists of the uncorroborated opinion of a named inventor. See In re Am. Appeal 2012-001919 Application 11/624,057 6 Acad. of Sci. Tech. Ctr., 367 F.3d 1359, 1368 (Fed. Cir. 2004) (citations omitted) (explaining that the Board is entitled to weigh the declarations and conclude the lack of factual corroboration warrants discounting the opinions expressed in the declarations). The inventor’s opinion that TiO2 contents below 0.15% by weight would result in unacceptably brittle proppants, and that contents greater than 3.5% by weight would result in unacceptably weak proppants, is unsupported by experimental data or any other objective evidence. Supp. Parias Decl. ¶ 21. The crush tests advanced by Appellants are probative of two rod-shaped proppants representing the extreme upper end (between about 3.2% and about 3.4% by weight) of the much broader range of TiO2 content specified in claim 55 (between about 0.15% and about 3.5% by weight). See Supp. Parias Decl. ¶ 14; see Ans. 15 (noting this deficiency in the evidence). Thus, we agree with the Examiner that Appellants’ evidence is not commensurate with the full scope of claim 55. Ans. 15. Nor do Appellants come forward with any comparative examples of proppants having TiO2 contents that fall outside of the specified range. See id. at 12 (regarding criticality of the specified TiO2 range, Appellants’ “data is not compared with the closest prior art, nor is it compared to anything”). On this record, we have no way of knowing whether proppants having TiO2 contents below 0.15% by weight or above 3.5% by weight perform any differently in a crush test than proppants having TiO2 contents that fall within the specified range. Appellants thus fail to establish criticality of the specified range. Regarding the alleged skepticism of skilled artisans in the field, the inventor relays the hearsay opinions of others who purportedly considered spherical proppants to be superior to rod-shaped proppants in terms of crush Appeal 2012-001919 Application 11/624,057 7 resistance and were skeptical that rod-shaped proppants could withstand the crush stresses encountered in oil well bores. Supp. Parias Decl. ¶¶ 29-35. Critically lacking is any indication that these skeptics were aware of Graham’s disclosure that rod-shaped proppants are superior in terms of strength to spherical proppants. Id. Appellants’ evidence is unconvincing because it consists of hearsay statements and contains no indication that those trying to solve the need were familiar with the relevant prior art. See In re Bulina, 362 F.2d 555, 559 (CCPA 1966) (“[A]n affidavit by an applicant or co-applicant as to the advantages of his invention is less persuasive than one made by a disinterested person.”); In re Allen, 324 F.2d 993, 997 (CCPA 1963) (citing Toledo Pressed Steel Co. v. Standard Parts, Inc., 307 U.S. 350, 356 (1939)) (an allegation that there was an unsolved problem in the art is not evidence of unobviousness unless it is shown that the widespread efforts of skilled workers having knowledge of the prior art had failed to find a solution to the problem). Appellants also argue that the evidence establishes that rod-shaped proppants exhibit unexpectedly superior results compared to spherical proppants in terms of crush resistance. Appellants’ evidence on this point, however, is based on a comparison of two rod-shaped proppants, having a TiO2 content of about 3.2% by weight and about 3.4% by weight, respectively, to a spherical proppant having a TiO2 content of 2.5% by weight. Compare Supp. Parias Decl. ¶ 14 (describing composition of rod- shaped proppants) to Supp. Parias Decl. ¶ 17 (describing composition of spherical proppant). We have no way of knowing whether the somewhat better crush resistance of the rod-shaped proppants compared to the spherical proppant (namely, about 19% compared to about 22% at 15,000 Appeal 2012-001919 Application 11/624,057 8 psi, (Supp. Parias Decl. ¶¶ 16, 17)), is attributable to the shape chosen or some other variable, for example, the different TiO2 contents of the compositions. In any event, we agree with the Examiner that the crush test results advanced by Appellants are not unexpected but in fact directly flow from Graham’s teaching that rod-shaped proppants will “resist crushing” better than spherical proppants. Graham 2:6-8; 3:25-33; see Ans. 13 (“the obviousness of proppants using a material taught to result in high strength (bauxite from Cooke) in a shape taught to have a higher crush resistance (rods from Graham) can not be overcome by experts who are skeptical of precisely what those references disclose”). We have carefully considered Appellants’ other arguments but find them unpersuasive for the reasons stated in the Answer. On this record, we affirm the rejections of claims 55-74 and 76-80. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a). AFFIRMED bar