Ex Parte Letourmy et al

Patent Trial and Appeal BoardFeb 12, 2019

12919975 (P.T.A.B. Feb. 12, 2019)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE FIRST NAMED INVENTOR 12/919,975 12/07/2010 Arnaud Letourmy 22850 7590 02/14/2019 OBLON, MCCLELLAND, MAIER & NEUSTADT, L.L.P. 1940 DUKE STREET ALEXANDRIA, VA 22314 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 ATTORNEY DOCKET NO. CONFIRMATION NO. 366296USOPCT 9577 EXAMINER CHOI, PETER Y ART UNIT PAPER NUMBER 1786 NOTIFICATION DATE DELIVERY MODE 02/14/2019 ELECTRONIC 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. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address(es): patentdocket@oblon.com OBLONPAT@OBLON.COM iahmadi@oblon.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte ARNAUD LETOURMY, ERIC MANGEMATIN, and PATRICE MARTINS Appeal2017-006044 Application 12/919,975 Technology Center 1700 Before DONNA M. PRAISS, MICHAEL G. McMANUS, and MERRELL C. CASHION, JR., Administrative Patent Judges. PRAISS, Administrative Patent Judge. DECISION ON APPEAL 1 STATEMENT OF THE CASE This is an appeal under 35 U.S.C. Â§ 134 from the Final Rejection of claims 1, 2, 4--8, 10, and 19--30 under 35 U.S.C. Â§ 103(a). We have jurisdiction under 35 U.S.C. Â§ 6(b ). An oral hearing was held on February 5, 2019. We AFFIRM. 1 This decision makes reference to the Specification filed Aug. 27, 2010 ("Spec."), the Final Office Action mailed June 2, 2016 ("Final Act."), the Appeal Brief filed Nov. 1, 2016 ("Appeal Br."), the Examiner's Answer mailed Dec. 30, 2016 ("Ans."), and the Reply Brief filed Feb. 28, 2017 ("Reply Br."). Appeal2017-006044 Application 12/919,975 The subject matter of this appeal relates to mineral wool based products, such as glass wool, intended especially for making thermal and possibly acoustic insulation products for the lining of walls and/or roofs. Spec. 1:5-9. Claims 1, 4, and 21 are illustrative and reproduced from the Claims Appendix ( disputed elements italicized): 1. A thermal insulation product having a three- dimensional rectangular parallelepipedal shape with plane dimensions longer than the thickness of the product, consisting essentially of fibers of mineral wool, wherein the fibers have a micronaire of less than 10 L/min, the product has a thermal conductivity of less than 31 mW /(m.K.), and the product has a density between 30 and 60 kg/m3; wherein the fibers have an average fiber diameter of less than 2 Âµm; and wherein at least 75% of the fibers are approximately parallel to the longer dimensions of the product, meaning a parallelism to within plus or minus 30Â° with respect to the planes formed by the longer dimensions of the product. 4. The thermal insulation product of claim 1, wherein a structure of the mineral wool comprises the fibers, bound together by a binder, in proportions of 5 to 8% by weight of the product. 21. The thermal insulation product of claim 1, wherein 65% of the fibers have an average fiber diameter of less than lÂµm. Appeal Br. 38, 39 (Claims Appendix). The Examiner maintains, and Appellants2 appeal, the following rejections: 2 Appellants identify the real party in interest as Saint-Gobain Isover. Appeal Br. 1. 2 Appeal2017-006044 Application 12/919,975 1. Claims 1, 2, 4--8, 10, and 19--30 under (pre-AIA) 35 U.S.C. Â§ 112 ,r 1 for failing to comply with the written description requirement; 2. Claims 1, 2, 4--8, 10, and 19--30 under (pre-AIA) 35 U.S.C. Â§ I03(a) as unpatentable over Nowobilski3 in view of Maricourt; 4 and 3. Claim 4 under (pre-AIA) 35 U.S.C. Â§ I03(a) as unpatentable over Nowobilski in view ofMaricourt and further in view of Toas. 5 Ans. 2-10; Appeal Br. 4--36. OPINION The dispositive issues for this appeal are whether the Examiner erred in finding that (1) the Specification lacks written descriptive support for the thickness of the product relative to the length of plane dimensions, (2) the Specification lacks written descriptive support for 65% of the fibers having an average diameter of less than 1 Âµm, and (3) whether the disclosures of Nowobilski and Maricourt are limited to their preferred ranges. After review of the arguments and evidence presented by both Appellants and the Examiner, we affirm the stated rejections. Rejection 1: Written Description The Examiner determines that the recitation in claim 1 "a three- dimensional rectangular parallelepipedal shape with plane dimensions longer than the thickness of the product" lacks written descriptive support in the 3 US 4,537,820, issued Aug. 27, 1985. 4 US 2006/0281622 Al, published Dec. 14, 2006. 5 US 2003/0040239 Al, published Feb. 27, 2003. 3 Appeal2017-006044 Application 12/919,975 Specification because the relationship between the plane dimensions and the thickness of the product is not disclosed. Final Act. 2. The Examiner further determines that the recitation in claim 21 of "65% of the fibers have an average diameter of less than 1 Âµm" lacks written descriptive support because the Specification only discloses "more than 65% of the fibers had an average diameter of less than 1 Âµm." Id. at 3. Appellants argue the subject matter of claims 1 and 21, and rely on the same arguments presented for claim 1 for dependent claims 2, 4--8, 10, 19, 20, and 22-30. Appeal Br. 10-13. In accordance with 37 C.F.R. Â§ 4I.37(c)(l)(iv), claims 2, 4--8, 10, 19, 20, and 22-30 will stand or fall together with claim 1 on which they depend either directly or indirectly. Claim 1 Appellants contend that the rejection is in error because the Specification discloses that the product "is substantially of rectangular parallelepipdal shape," that "planes form[] the long dimensions of the product," and that "the thickness of the product (perpendicular to the long dimensions) is minimized." Appeal Br. 10-11 (citing Spec. 6:24--25, 6:28- 29, 6:32-34). According to Appellants, "one skilled in the art reading Applicant's Specification would have been hard-pressed to state that Applicants' Specification as originally filed does not disclose the claimed limitation between the plane dimensions and thickness of the product." Id. at 11. The Examiner responds that the Specification does not indicate which "plane dimensions" are referenced as being longer (i.e. in the X dimension or the Y dimension of a rectangular parallelepipedal shape) and there are no 4 Appeal2017-006044 Application 12/919,975 values associated with plane dimension lengths with which to extrapolate a relationship as claimed. Ans. 10-11. The Examiner points out that the portion of the Specification cited by Appellants regarding "planes forming the long dimensions of the product" is not characterizing the planes as the long dimensions of the product, but forming the long dimensions of the product when describing what is meant by "approximately parallel." Id. at 11 ( citing Spec. 6:24--29). The Examiner further responds that the arrangement described in the Specification as being minimized relates to the arrangement of fibers in the product, i.e. "[t]he proportion of fibers oriented along the thickness of the product (perpendicular to the long dimensions) is minimized," and not to the structure of the product. Id. In the Reply Brief, Appellants provide a number of partial excerpts from the Specification relating to the form of the product being substantially of rectangular parallelepipedal shape, the density of the product being reduced to reduce its thickness, and fibers being oriented substantially parallel to the longest dimensions of the fiber blanket obtained as supporting its position that claim 1 's requirement that the product has a three dimensional shape with plane dimensions longer than the thickness of the product. Reply Br. 2-3. We are not persuaded of error in the Examiner's determination that the claimed thickness of the product lacks descriptive support in the Specification. "Adequate written description means that the applicant, in the specification, must 'convey with reasonable clarity to those skilled in the art that, as of the filing date sought, he or she was in possession of the [ claimed] invention."' Agilent Techs., Inc. v. Afjj;metrix, Inc., 567 F.3d 1366, 1379 (Fed. Cir. 2009) (reh'g. en bane denied Sept. 18, 2009) (citation omitted). 5 Appeal2017-006044 Application 12/919,975 At best, Appellants provide support for the product having ( 1) a thickness, (2) a rectangular parallelepipedal shape, (3) a density, (4) long dimensions, and ( 5) reduced density reduces the thickness. However, none of Appellants' citations to the Specification provide a thickness of the product relative to other dimensions of the product that supports the recitation "plane dimensions longer than the thickness of the product." In the absence of any disclosure in the Specification of the lengths or relative sizes of the thickness and other dimensions of the product, Appellants have not demonstrated error in the rejection of claim 1 for lack of written descriptive support. Claim 21 Regarding claim 21, Appellants contend "[i]t should suffice to say that '65% of the fibers have an average fiber diameter of less than 1 Âµm' in all products 'wherein more than 65% of the fibers have an average fiber diameter of less than 1 Âµm."' Appeal Br. 12 (citing Spec. 9:28-29, 16:6-7). The Examiner responds that the claim is directed to an exact value that is excluded by the Specification statement "more than 65% of the fibers had an average diameter of less than 1 Âµm." Ans. 12 (citing 9:28-29, 16:6- 7). In the Reply Brief, Appellants restate their position that "more than 65%" is inclusive of 65% and specifically argue that the written description requirement does not require a description of the subject matter in the same language as the claims. Reply Br. 3. We are not persuaded of error in the Examiner's determination that the limitation recited in claim 21 lacks written descriptive support in the Specification. The Specification qualifies the amount of the fibers having a 6 Appeal2017-006044 Application 12/919,975 diameter of less than 1 Âµmas "more than 65%." Spec. 9:28-29, 16:6-7. Appellants' arguments do not direct us to any portion of the Specification or provide other evidence to support their contention that the claim limitation "more than 65%" includes an amount of 65% as its lower limit. Under Appellants' rationale, if "more than 65%" is to be understood as inclusive of the amount of 65%, then it could also be understood as inclusive of every amount from 65% and below in addition to all amounts that are "more than 65%" as explicitly stated. This would render the claim limitation meaningless. 6 Appellants correctly state that the claimed subject matter need not be described "in haec verba" in the original specification in order to satisfy the written description requirement. In re Wright, 866 F.2d 422, 425 (Fed. Cir. 1989). However, Appellants have not adequately shown how the disclosure of "more than 65%" means something other than an amount greater than 65%. Accordingly, Appellants' interpretation of "more than 65%" is not persuasive of error based on the cited record in this appeal. Conclusion For the foregoing reasons, we affirm the Examiner's rejection under (pre-AIA) 35 U.S.C. Â§ 112 ,r 1 of claims 1, 2, 4--8, 10, and 19-30. Rejection 2: Obviousness over Nowobilski and Maricourt The Examiner determines that Nowobilski in view of Mari court disclose the subject matter of claims 1, 2, 4--8, 10, and 19-30 for the reasons 6 We note that Appellants also use the mathematical expression of "equal to or greater" in claim 5. Thus, it appears that Appellants are aware that this expression best defines a range inclusive of a lower limit. 7 Appeal2017-006044 Application 12/919,975 stated on pages 3-8 of the Final Rejection. We address below each claim separately argued by Appellants. Claim 1 In the Appeal Brief, Appellants argue that the prior art combination does not suggest the claimed product or enable those skilled in the art to make the claimed product without undue experimentation because "[t]he prior art provides no specific teaching, and certainly no specific example, of an insulation product with fibers having a micronaire less than 10 L/min and an average diameter of less than 2Âµm, and a density between 30 and 60 kg/m.3'' Appeal Br. 14--16. Specifically, Appellants argue that Nowobilski's disclosure that the diameter of the glass fibers making up glass fiber sheets can be from 0.2 to 13 microns, and preferably from 1 to 5 microns, "does not teach or reasonably suggest to the ordinary artisan that the average diameter of its glass fibers can be less than 2 Âµm, and is preferably less than 1 Âµm." Id. at 17. According to Appellants, the claimed diameter would not be expected or enabled because Nowobilski's one example uses commercially available glass fiber sheets having glass fibers with a diameter of 3 microns. Id. at 17-18. Appellants also contend that the density ofNowobilski's insulation product does not overlap the claimed range because the range of 14 to less than 3 0 pounds per cubic foot (pct) corresponds to 224 kg/m3 to less than 480 kg/m3 and, thus, outside the claimed 30 to 60 kg/m3 required by the claims. Id. at 18 (citing Nowobilski 3:64--4:3). 8 Appeal2017-006044 Application 12/919,975 In addition, Appellants dispute the Examiner's finding that Nowobilski's product meets the micronaire value required by the claims based on the following correlation disclosed in Appellants' Specification: In general, the fibers obtained by internal centrifugation have an average diameter of 3 Âµm, which corresponds to a micronaire of 3 under 5 grams, or else an average diameter of 2 Âµm, which corresponds to a micronaire of 2.8 under 5 grams. Id. at 19 (quoting Spec. 2:31-35). According to Appellants, the micronaire of conventional fibers having an average diameter of 3 Âµm and a corresponding micronaire of 3 under 5 grams "is significantly higher than Applicant's claimed maximum mi cronaire of 10 L/ min." Id. Appellants argue that there is also a significantly different technical problem addressed by Nowobilski, namely improving the compressive strength of commercially available thermal insulation board without the use of chemicals or adhesives, than by the invention, which "improved thermal insulation properties ... in reasonable thicknesses for the building application." Id. at 20 (quoting Spec. 5:28-32, citing Nowobilski 2: 1--4). Appellants contend that Maricourt does not remedy the alleged deficiencies ofNowobilski and that Maricourt's preferred density of between 60 and 200 kg/m3 would not have led an ordinarily skilled artisan to optimize the density to between 30 and 60 kg/m3 as required by the claims. Id. at 22-23. The Examiner responds that the concepts of glass fibers oriented perpendicular to the direction of heat leak maximizes the thermal resistance of the board as well as fibers having average fiber diameters within the claimed range are taught by Nowobilski. Ans. 12-13. The Examiner finds that Appellants' thickness range of "equal to or greater than 3 0 mm" is not 9 Appeal2017-006044 Application 12/919,975 thin and is potentially an infinite thickness range. Id. at 13. The Examiner further finds that Nowobilski does not require criss-crossing its glass fibers and that Nowobilski acknowledges broken fibers stick up and orient themselves at right angles, which Nowobilski remedies by applying a light compressive force resulting in a maximum of fibers oriented perpendicular to the direction of heat leak. Id. at 13-14 (citing Nowobilski 4:58-5:19). The Examiner also responds that the rejection is not based on Nowobilski alone, that the cited art is not limited to their examples, and that Nowobilski contemplates varying the density and discloses a density of less than 30 pounds per cubic foot, which overlaps the claimed range. Id. at 15-17, 22 (citing Nowobilski 3:64--4:13). The Examiner additionally finds that Maricourt discloses fibers having an overlapping micronaire or fiber diameter value as Nowobilski when the density of Maricourt's product is at least 40 kg/m3 and the thermal conductivity is at most 3 5 mW /mK. The Examiner then determines that it would have been obvious to form the insulation product ofNowobilski with the conventional densities and corresponding thermal conductivities of Maricourt to form insulation products having the desired properties known in the art, where such insulation products would have been predictably suitable as insulation materials comprising glass fibers. Id. at 16-17. The Examiner also responds that preferred ranges disclosed by the prior art references do not differentiate the prior art from the claimed invention. Id. at 20. Regarding the correlation between micronaire and an average diameter, the Examiner finds that a diameter of less than 2Âµm disclosed by Nowobilski would meet both the claimed average diameter and the claimed micronaire. Id. at 17-18. Regarding the technical problem addressed by 10 Appeal2017-006044 Application 12/919,975 Appellants' invention and Nowobilski, the Examiner finds that an insulation board concerned with compressive strength is not mutually exclusive from an insulation product having a reasonable thickness and that a skilled artisan would have expected an insulation board to comprise both compressive strength and a reasonable thickness. Id. at 18. In the Reply Brief, Appellants contend that neither Nowobilski nor Maricourt teaches the claimed thermal insulation product and that a skilled artisan would have to disregard the preferences and examples of the prior art to conclude that it would have been obvious to modify Nowobilski's high density thermal insulation product. Reply Br. 3--4. According to Appellants, undue experimentation without a reasonable expectation of success would be required to modify Nowobilski's high density thermal insulation product with the non-preferred teachings ofMaricourt and in the absence of any teaching or motivation or suggestion to do so. Id. at 4. Appellants contend that Nowobilski's thermal insulation product is not a conventional insulation product, therefore, there would have been no incentive to "make it undesirably conventional by drastically reducing its density and compressibility contrary to Nowobilski's inventive direction and disclosure." Id. at 6. For the reasons discussed below, Appellants' arguments fail to identify a reversible error in the Examiner's findings as to claim 1. In re Jung, 637 F.3d 1356, 1365 (Fed. Cir. 2011). First, it is undisputed that Nowobilski discloses a thermal insulation board comprising "a maximum of glass fibers which can be oriented perpendicular to the direction of heat leak and thus maximizes the thermal resistance of the board." Nowobilski 5:5-7, 5:14--20; Final Act. 4. It is 11 Appeal2017-006044 Application 12/919,975 undisputed that Nowobilski discloses glass fibers used to make up glass fiber sheets where the diameter of the glass fibers is from O .2 to 13 microns and preferably from 1 to 5 microns, which ranges both encompass the claimed average diameter of 2 microns. Nowobilski 3:41--43; Final Act. 3. It is undisputed that Nowobilski broadly discloses a density range of "less than 30 pounds per cubic foot," which encompasses the claimed range. Nowobilski 3:41--46; Final Act. 3. It is also undisputed that Nowobilski discloses that "for a specific fiber diameter, the thermal conductivity of the board varies with board density." Nowobilski 6:23-25; Final Act. 4. The Examiner's finding that Nowobilski's Figure 2 discloses thermal conductivities within the claimed ranges (Final Act. 6) is also not disputed. Further, Appellants do not dispute that Maricourt discloses a conventional insulation product having a thermal conductivity of at most 35 m W/mK and a density of at least 40 Kg/m3â€¢ Mari court ,r,r 3 8, 63; Final Act. 6; Ans. 16- 17. Second, Appellants do not direct us to any evidence that would rebut the Examiner's finding (Final Act. 4) that a relationship exists between micronaire values and average diameters such that an average diameter of 0.2 to 1.0 micron would have a micronaire value within the claimed range. The Examiner's finding is supported by the evidence cited in this record on appeal. Spec. 2:37--4:5; Maricourt ,r 100. Third, to the extent Appellants challenge the Examiner's reason to combine Maricourt's teaching of thermal conductivity and density parameters for a conventional insulation board on the basis that Maricourt discloses a "crimping" process not used by Nowobilski (Appeal Br. 21-22), Appellants' argument is not persuasive because "[t]he test for obviousness is 12 Appeal2017-006044 Application 12/919,975 not whether the features of a secondary reference may be bodily incorporated into the structure of the primary reference. . . . Rather, the test is what the combined teachings of those references would have suggested to those of ordinary skill in the art." In re Keller, 642 F.2d 413, 425 (CCPA 1981 ). The Examiner's rejection is over the disclosure ofNowobilski's insulation board that "achieves maximum insulation when the glass fibers are oriented perpendicular to the direction of heat leak" in view of Maricourt, which is cited to support the Examiner's finding that the thermal conductivity and density parameters disclosed in Maricourt are desirable for a conventional insulation board and not for Maricourt's process (Final Act. 6; Ans. 17). Thus, Appellants' argument lacks any meaningful explanation as to why it would not have been within the purview of one of ordinary skill in the art to modify the density and thermal conductivity ofNowobilski's insulation board. Appellants' contention (Reply Br. 6) that Nowobilski's product is not a conventional insulation product and, therefore, it would be undesirable to make it a conventional insulation product by reducing its density and compressibility is not persuasive because Nowobilski itself contemplates varying the density, does not exclude density being below 30 pounds per cubic foot, and recognizes that the thermal conductivity of the board varies with board density. Nowobilski 3:64--4: 13, 6:20-40; Ans. 16; Final Act. 4. Accordingly, Appellants do not adequately explain why it would not have been obvious to a skilled artisan to vary the density and thermal conductivity ofNowobilski's insulation board, as desired, in view of the disclosures of both Nowobilski and Maricourt. 13 Appeal2017-006044 Application 12/919,975 For the foregoing reasons and the reasons provided in the Examiner's Answer and the Final Office Action, we affirm the Examiner's rejection under 35 U.S.C. Â§ 103(a) of claims 1, 2, 4--8, 10, and 19-30. Claim 2 Claim 2 depends from claim 1 and recites "having a density between 35 kg/m3 and 55 kg/m3." Appeal Br. 38 (Claims Appendix). Appellants contend that the Examiner's rejection is in error because Maricourt discloses a preferred range of 60 to 200 kg/m3 and even though Maricourt also discloses a density limit of at least 40 kg/m3, "Maricourt is more interested in tear resistance and compressive strength and achieves those improvements by crimping." Id. at 31. The Examiner replies that Maricourt's fiber micronaire of less than or equal to 18 L/min and thermal conductivity of at most 35 m W/mK include and substantially overlap Appellants' claimed ranges. Ans. 28-29. The Examiner further responds that Maricourt establishes that a person having ordinary skill in the art would have decreased the density of the product as the diameter of the fibers and the thermal conductivity of the thermal insulation product is reduced. Id. at 29. We are not persuaded that the Examiner reversibly erred in rejecting claim 2 over the combination ofNowobilski and Maricourt for substantially the same reasons discussed above in connection with claim 1. Nowobilski discloses that "for a specific fiber diameter, the thermal conductivity of the board varies with board density." Nowobilski 6:23-25; Final Act. 4. Maricourt discloses a conventional insulation product having a thermal conductivity of at most 3 5 mW /mK and a density of at least 40 Kg/m3. 14 Appeal2017-006044 Application 12/919,975 Maricourt ,r,r 38, 63; Final Act. 6; Ans. 16-17. Accordingly, the Examiner's determination that it would have been obvious to a person having ordinary skill in the art to modify Nowobilski's insulation product to have the desired properties known in the insulation art as predictably suitable for insulation materials comprising glass fibers, as established by Maricourt, is supported by the preponderance of the evidence cited in this record on appeal. Final Act. 6-7. Claims 20 and 22 Claims 20 and 22 each depend from claim 1 and recite "wherein the fibers have a micronaire of between 3 and 6 L/min" and "having a density between 35 and 55 kg/m3 and an average fiber diameter of less than 1 Âµm," respectively. Appeal Br. 39 (Claims Appendix). Appellants contend that the Examiner's rejection of claim 20 is in error because Mari court's teaching of a micronaire less than 18 L/min is inconsistent with Nowobilski's preferred glass fiber diameter of 1 to 5 microns and conflicts with Maricourt's preferred range of "especially between 11 and 15 L/min." Appeal Br. 32 (citing Maricourt ,r 24). Appellants contend that the rejection of claim 22 is in error because the cited prior art would not have reasonably led a skilled artisan to the claimed density and average fiber diameter because Nowobilski's product has a density significantly greater than 60 kg/m3 and has a preferred glass fiber diameter of 1 to 5 microns. Id. The Examiner replies that Nowobilski discloses the glass fiber diameters can be 0.2 to 13 microns and preferably 1 to 5 microns and, since diameter is analogous to micronaire, Maricourt's disclosure of a micronaire 15 Appeal2017-006044 Application 12/919,975 less than 18 L/min is consistent with the teachings of Nowobilski. Ans. 29-- 30. The Examiner also responds that the lower limit of product density set forth by the prior art combination is "at least equal to 40 kg/m3" and the lower limit of fiber diameter is 0.2 microns, which is less than 1 micron. Id. at 30. We are not persuaded that the Examiner reversibly erred in rejecting claims 20 and 22 over the combination ofNowobilski and Maricourt for substantially the same reasons discussed above in connection with claim 1. The Examiner's findings that the prior art combination discloses insulation materials comprising glass fibers having fiber diameters/micronaires and density properties overlapping the claimed ranges is supported by the preponderance of the evidence cited in this appeal record. Nowobilski 3:41--43, 3:64--66; Maricourt ,r,r 49, 63. Claims 23 and 24 Claims 23 and 24 depend from claims 1 and 2, respectively, and both recite "wherein the fibers are approximately parallel to the longer dimensions of the planes of the product in a proportion of at least 80%." Appeal Br. 40 (Claims Appendix). Appellants contend that the Examiner erred because the processes used by Nowobilski and Maricourt do not suggest that the increased proportion of fibers recited in claims 23 and 24 could be achieved because they tend to reduce the proportion of glass fibers that are parallel to the longer dimensions of the product. Appeal Br. 33-34. Appellants rely on Nowobilski's disclosure that stacking and compressing starting glass fiber sheets may cause breakage of some of the fibers so that they become 16 Appeal2017-006044 Application 12/919,975 oriented perpendicular to the other fibers and parallel to the heat leak. Appeal Br. 33 (citing Nowobilski 1:61---64). Appellants contend that Maricourt's insulation product would be expected to be "even further misaligned" because the product is "obtained by internal centrifugation and attenuation by a high-temperature gas stream and by crimping .... " Id. ( citing Maricourt, claim 1 ). The Examiner replies that Nowobilski acknowledges that broken fibers tend to stick up and remedies this problem by applying a light compressive force where fewer glass fibers are damaged or broken, resulting in a maximum of glass fibers oriented perpendicular to the direction of heat leak and maximizing the thermal resistance of the board. Ans. 30. We are not persuaded that the Examiner reversibly erred in rejecting claims 23 and 24 over the combination ofNowobilski and Maricourt for the reasons stated by the Examiner in the Final Action and the Answer. The Examiner's finding that Nowobilski teaches maximizing both the maximum glass fibers oriented perpendicular to the direction of heat leak and, thus, the thermal resistance of the board is supported by the preponderance of the evidence cited in this appeal record. The Examiner's finding that Nowobilski discloses how to remedy the breakage of fibers that would interfere with the fiber orientation is also supported by the record. Nowobilski 4:58-5: 19; Ans. 13-14; Final Act. 3--4. Claims 25-28 Claims 25 and 26 depend indirectly from claims 1 and 2, respectively, and recite "wherein the approximately parallel fibers are produced by an internal centrifugation fiberizing process comprising" followed by a 17 Appeal2017-006044 Application 12/919,975 description of the equipment used, including the speed of a conveyor being greater than the speed of a receiving belt "by more than 10%." Appeal Br. 40 (Claims Appendix). Claims 27 and 28 depend from claims 25 and 26, respectively, and recite "wherein the speed of the conveyor is greater than the speed of the receiving belt by more than 15%." Id. at 41. Appellants contend that the Examiner's rejection of claims 25 and 26 on the basis that the applied prior art is identical to or only slightly different than the claimed article is in error because"[ o ]nly Applicant's Specification would have enabled one skilled in the art to make and use the claimed thermal insulation product." Appeal Br. 35. Appellants further assert that the process of dependent claims 27 and 28 is not disclosed, suggested, or enabled by the prior art and that the claims are supported by Example 1 in the Specification. Id. at 35-36. The Examiner responds that claims 25 and 26 are directed to the process of forming the parallel fibers and not to forming the product. Ans. 22. The Examiner notes that the claims do not require the inclusion of binder as recited in claim 4, which depends from product claim 1. Id. For this reason, the Examiner concludes there is no basis for Appellants' argument that the process limitations are required to form the claimed product having the claimed density. Id. at 23. The Examiner also responds that the product by process limitations of claims 27 and 28 were not specifically rejected under 35 U.S.C. Â§ 112 and that Appellants have not shown unobvious differences between the claimed product and the prior art product. Ans. 32. In the Reply Brief, Appellants contend that it is not understandable how the dependent claims can be rejected under 35 U.S.C. Â§ 112 when the 18 Appeal2017-006044 Application 12/919,975 products made by the claimed process are disclosed in the original specification and the specific limitations of the claims are not rejected under Section 112. Reply Br. 8-9. Because we determine that the preponderance of the evidence supports the Examiner's rejection of product claims 1 and 2 over the combination ofNowobilski and Maricourt for the reasons discussed above, we likewise determine that the preponderance of the evidence supports the Examiner's rejection of product by process claims 25-28. See In re Thorpe, 777 F.2d 695, 697 (Fed. Cir. 1985) (internal citations omitted) (noting that "even though product-by-process claims are limited by and defined by the process, determination of patentability is based on the product itself. The patentability of a product does not depend on its method of production. If the product in a product-by-process claim is the same as or obvious from a product of the prior art, the claim is unpatentable even though the prior product was made by a different process"). Rejection 3: Obviousness over Nowobilski, Maricourt, and Toas Claim 4 depends from claim 1 and recites "wherein a structure of the mineral wool comprises the fibers, bound together by a binder, in proportions of 5 to 8% by weight of the product." Appeal Br. 38 (Claims Appendix). The Examiner finds that Toas discloses it is conventional to form a thermal insulation product comprising rock wool or glass fibers and that the insulation product can include a binder from 1-35 wt%, preferably from 3- 30 wt%, and more preferably from 4--25 wt%, to capture and hold the fibers together. Final Act. 9 ( citing Toas Abstract, ,r,r 23-25). The Examiner 19 Appeal2017-006044 Application 12/919,975 determines it would have been obvious to include a binder from 1-35 wt% in the insulation product from the combined teachings ofNowobilski and Maricourt, as taught by Toas, to form a conventional insulating product having an amount of binder predictably suitable for binding glass fiber in thermal insulation products. Id. Appellants contend that the Examiner erred because Nowobilski discloses that the binder content of its preliminary insulation sheets must be removed prior to use by heating in order to achieve the desired thermal conductivity. Appeal Br. 25 (citing Nowobilski 5:57-59). Appellants argue that Toas does not disclose the level of thermal conductivity required by Appellants' claims. Id. The Examiner responds that Nowobilski does not require the complete absence of a binder, nor establishes a correlation between an amount of binder and thermal conductivity. Ans. 23. The Examiner points out that Maricourt is relied upon for disclosing the claimed thermal conductivity property, which can be attained with the presence of a binder. Id. In the Reply Brief, Appellants assert that Nowobilski's disclosure that "[i]t is important that this binder material be essentially completely removed from the glass fiber sheets for the attainment of the maximum benefits of this invention" is an express instruction "to completely remove binder" and adding binder in the amount disclosed by T oas would be inconsistent and irreconcilable with the teachings ofNowobilski. Reply Br. 7 (citing Nowobilski 3:50-53). We are not persuaded of reversible error by the Examiner because Nowobilski qualifies its disclosure to "essentially completely remove[]" the binder material from commercially available glass fiber sheets used to 20 Appeal2017-006044 Application 12/919,975 fabricate Nowobilski's insulation board with "for the attainment of the maximum benefits of this invention." Nowobilski 3:50-53 (emphasis added). While Nowobilski recognizes the prior art disadvantages of using a binder (id. 1 :40-45), Nowobilski also teaches that there is a purpose for the presence of the binder and that is to hold the glass fiber layers together in a simple and inexpensive way. Id. 1 :33-34. Nowobilski further teaches that the removal of essentially all of the binder material is a procedure that takes from 2 to 16 hours. Id. 1: 60-63. Therefore, the preponderance of the evidence supports the Examiner's finding that Nowobilski does not require the complete absence of binder in its insulation product. Nor are the teachings of Nowobilski inconsistent with the teachings of Taos because Taos teaches the amount of binder present in a thermal insulation product and Nowobilski teaches that the glass fiber sheets used as its starting material generally contain a binder. Nowobilski 1 :47--49; Taos ,r 25. In addition, Nowobilski teaches that maximum insulation of the product is achieved when the glass fibers are oriented perpendicular to the direction of heat leak, not when binder is completely removed. Nowobilski 5:5-7. For the foregoing reasons and the reasons provided in the Final Office Action and the Answer, we affirm the Examiner's rejection under 35 U.S.C. Â§ 103(a) of claim 4. CONCLUSION We affirm all of the Examiner's rejections. ORDER The Examiner's decision is affirmed. 21 Appeal2017-006044 Application 12/919,975 No time period for taking any subsequent action in connection with this appeal maybe extended under 37 C.F.R. Â§ 1.136(a)(l)(v). AFFIRMED 22