13288064 (P.T.A.B. May. 11, 2017)

Ex Parte Ruedinger et al

Patent Trial and Appeal BoardMay 11, 2017

13288064 (P.T.A.B. May. 11, 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. 13/288,064 11/03/2011 Bernd Ruedinger 0008025USU/4422B 2587 27623 7590 05/11/2017 OHLANDT, GREELEY, RUGGIERO & PERLE, LLP ONE LANDMARK SQUARE, 10TH FLOOR STAMFORD, CT 06901 EXAMINER HOFFMANN, JOHN M ART UNIT PAPER NUMBER 1741 MAIL DATE DELIVERY MODE 05/11/2017 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 BERND RUEDINGER, FRIEDRICH SIEBERS, GERHARD LAUTENSCHLAEGER, and MATTHIAS BAESEL Appeal 2016-003508 Application 13/288,064 1 Technology Center 1700 Before KAREN M. HASTINGS, DONNA M. PRAISS, and SHELDON M. McGEE, Administrative Patent Judges. PRAISS, Administrative Patent Judge. DECISION ON APPEAL The Examiner rejected claims 1—4, 7, 8, and 20—27 of Application 13/288,064 under 35 U.S.C. § 103(a) as obvious. Appellants seek reversal of these rejections pursuant to 35 U.S.C. § 134(a). We have jurisdiction under 35 U.S.C. § 6. For the reasons set forth below, we AFFIRM. BACKGROUND The ’064 Application describes a method of ceramicizing a floated glass in an atmosphere comprising water vapor in an amount of 3% by 1 Schott AG is identified as the real party in interest. Appeal Br. 1. Appeal 2016-003508 Application 13/288,064 volume or higher and/or molecular hydrogen in an amount of 2% by volume or higher to obtain glass ceramic material with high stability. Spec, H 2, 16; Appeal Br. 2. Glasses of the system L^O-ACCh-SiCC in particular are known to be converted into glass ceramics (LAS glass ceramics) by controlled crystallization. Spec. 13. Li+ ion is incorporated in the glass ceramic in a high percentage rate, changing the crystal properties and the coefficient of thermal expansion, causing stress, and resulting in cracks leading to substantial lowered surface strength of the glass ceramic. Id. ^ 8. During crystallization of the glass, the non-crystallized surface layer has a considerably higher coefficient of thermal expansion compared with the predominantly crystallized interior zone. Id. 1 12. According to the Specification, “[t]he influence of a forming gas atmosphere in the floating bath onto the later microstructure of the glass ceramic has not yet been described in literature.” Id. 114. Claim 1 is representative of the ’064 Application’s claims and is reproduced below from the Claims Appendix of the Appeal Brief (paragraphing added): 1. A method for the ceramicization of a float glass, comprising: ceramicizing the float glass to provide a glass ceramic in an hydrogen containing atmosphere, wherein the atmosphere comprises water vapor and/or molecular hydrogen, wherein hydrogen is present in the atmosphere in an amount higher than or equal to 3 % by volume when the atmosphere comprises water vapor or is present in an amount higher than or equal to 2 % by volume when the atmosphere comprises molecular hydrogen, 2 Appeal 2016-003508 Application 13/288,064 wherein the float glass has upper and lower surfaces that are exposed to the atmosphere during the ceramicizing in such a way that a first Li depleted layer at the upper surface and a second Li depleted layer at the lower surface are formed, wherein the glass ceramic is an LAS glass ceramic, and wherein the first and second Li depleted layers have a thickness of less than 2000 nm. Id. at 11. REJECTIONS On appeal, the Examiner maintains the following rejections:2 1. Claims 1—4, 7, 8, 20, and 21 are rejected under 35 U.S.C. § 112, 12 as being indefinite in using the term “Li depleted layer.” Final Act. 3. 2. Claims 1—3, 7, 8, and 20-24 are rejected under 35 U.S.C. § 103(a) as unpatentable over the combination of Emsberger,3 Pilkington,4 Yamada,5 and Appellants’ Admitted Prior Art (AAPA).6 Final Act. 6. 2 The rejection of claims 1—4, 7, 8, 20, and 21 under 35 U.S.C. § 112,12 as being indefinite for using the term “and/or” (Final Act. 2) stands withdrawn by the Examiner. Ans. 2. 3 US 3,756,798, issued Sept. 4, 1973. 4 US 3,083,551, issued Apr. 2, 1963. 5 US 6,358,869 Bl, issued Mar. 19, 2002. 6 Spec. 14. Final Act. 6. 3 Appeal 2016-003508 Application 13/288,064 3. Claims 4 and 25—27 are rejected under 35 U.S.C. § 103(a) as unpatentable over the combination of Emsberger, Pilkington, Yamada, AAPA, and Pirooz.7 Final Act. 10. DISCUSSION Rejection 1. The Examiner rejected claims 1—4, 7, 8, 20, and 21 under 35 U.S.C. § 112,12, as being indefinite for using the term “Li depleted layer.” Final Act. 3. The Examiner finds that the term is unclear because (1) it reads on layers where there is no Li depletion if it is defined as “a nearly completely glassy (thus amorphous) surface region adjacent to the predominately crystalline interior zone of the glass ceramic” as stated in 124 of the Specification, with no mention of depletion and lithium in the definition, and (2) 15 of the Specification, on the other hand, suggests that “some of the lithium is absent” such as described in Yamada. Final Act. 3. Appellants contend that the ordinary and customary meaning of depletion of lithium is “a lower or depleted concentration of lithium” and layer means the layers described in paragraph 24 of the Specification. App. Br. 6. Appellants argue that paragraph 5 of the Specification describes Yamada’s lithium depleted region, which the source document states is a result of “reducing the Li+ concentration on the surface of a crystallized glass as compared with the inside.” Id. (citing Yamada 2:1—8). Paragraph 24 of the Specification, on the other hand, Appellants contend, describes layers having depleted lithium. Id. (quoting Spec. 124 “the term Li depleted layer means a nearly completely glassy (thus amorphous) surface region 7 US 3,779,856, issued Dec. 18, 1973. 4 Appeal 2016-003508 Application 13/288,064 adjacent to the predominantly crystalline interior zone of the glass ceramic.”). The Examiner responds that because paragraph 5 does not include the term “region” within quotes along with “lithium depleted,” the description in paragraph 5 explains what “lithium depleted” means, but is not limited to regions. Ans. 12—13. The Examiner also finds that “the normal and customary meanings of claim terms are generally not applicable when an applicant is acting as their own lexicographer” implying that the inventors chose to be their own lexicographers of the term “lithium depleted layer” in paragraph 24 of the Specification. Id. at 12. The Examiner further finds that paragraph 24, makes no mention of depleted lithium or that it must be depleted of lithium. Id. at 13. In the Reply Brief, Appellants assert that “layer” is not amenable to a reasonable constmction other than the layers described in paragraph 24 and that “depletion” is not amenable to a definition other than its normal and customary meaning as reflected in paragraph 5. Reply Br. 2. We agree with Appellants that the broadest reasonable interpretation of “lithium depleted layer” is a surface layer having a lower or depleted concentration of lithium. The definiteness of a claim depends on whether one skilled in the art would understand the bounds of the claim when read in light of the specification. Howmedica Osteonics Corp. v. Tranquil Prospects, Ltd., 401 F.3d 1367, 1371 (Fed. Cir. 2005). Paragraph 5 of the Specification precedes paragraph 24 and explains, in the context of the prior art ceramicized float glass, what lithium depleted means. Paragraph 24 then describes the location, thickness, and appearance of its layers that are lithium depleted, i.e. on the floating upper side opposite the floating bath (also the 5 Appeal 2016-003508 Application 13/288,064 lower side), having a thickness lower than 2000 nm, and being completely glassy (amorphous). As noted by the Examiner (Final Act. 4), the USPTO “employ[s] a lower standard of ambiguity when reviewing a pending claim for indefmiteness than those used by post-issuance reviewing courts.” Ex parte Miyazaki, 89 USPQ2d 1207, 1211 (BPAI 2008) (precedential). However, under that lower standard, we do not find that paragraphs 5 and 24 create an ambiguity in the term “lithium depleted layer” merely because paragraph 24 does not carry over or repeat the meaning of lithium depleted already expressed in paragraph 5. As the Examiner observes, if paragraph 24 is setting forth a definition for the term “Li depleted layer” that does not include lithium depletion, then it would “suggest [a] very different thing[]” from paragraph 5 which suggests that lithium depleted “means that some of the lithium is absent such as described in [Yamada].” Ans. 3. Such a definition for the claim term would not be reasonable in view of the Specification, specifically when read in context with paragraph 5. Furthermore, the claims all require the presence of lithium (i.e., the glass ceramic is an LAS glass ceramic (as defined in Spec. 13)), which also provides context for a lithium depleted layer. Therefore, in light of the Specification as a whole, the claim term “lithium depleted layer” is not indefinite. Accordingly, we reverse the rejection of claims 1—4, 7, 8, 20, and 21 under 35 U.S.C. § 112,12. At the same time, however, because independent claims 1 and 20 do not recite a lower limit for the thickness of the lithium depleted layer, the affirmatively recited “lithium depleted layer” requires no measurable or a de minimis thickness. 6 Appeal 2016-003508 Application 13/288,064 We further find, as discussed below, that the Examiner’s construction of the term for purposes of the prior art rejections not to be harmful error. Rejections 2 and 3. The Examiner rejected claims 1—3, 7, 8, and 20- 24 under 35 U.S.C. § 103(a) for the reasons stated on pages 6—10 of the Final Action. The Examiner’s rejection of claims 4 and 25—27 under 35 U.S.C. § 103(a) additionally relies on the disclosure in Pirooz that a mixture of hydrogen and nitrogen can be used instead of steam for nucleating glass bodies and that such mixtures are commercially available for making the same glass type as Emsberger. Final Act. 10-11. Appellants argue the claims as a group. App. Br. 7. In accordance with 37 C.F.R. § 41.37(c)(l)(iv), and based upon the lack of arguments directed to the subsidiary rejection, claims 2—4, 7,8, and 20-27 will stand or fall together with independent claim 1. Appellants contend that the Examiner erred in combining the teachings of Emsberger with Yamada because Emsberger’s ceramicizing method is not a float glass method and requires a stmcture with a crystalline surface and an interior with crystals of substantially uniform composition throughout. App. Br. 8. According to Appellants, because Emsberger discloses a crystalline surface, it teaches away from lithium depleted layers and amorphous regions (id.) and any modification of its crystalline surface would make it unsuitable for its intended purpose (id. at 9). Appellants also contend that a skilled artisan would not look to Emsberger to improve upon a float glass process because Emsberger teaches a different process and none of the problems associated with such a process. Id. at 8. 7 Appeal 2016-003508 Application 13/288,064 According to Appellants, Yamada, on the other hand, uses a float glass process for ceramicizing, but describes reducing microcracks in crystallized glass when exposed to an H2SO4 containing atmosphere and does not disclose reducing cracks during the cool-down period of the ceramicization process. Id. at 9. Appellants further argue that the combination of Emsberger and Yamada “teaches the skilled person away from the specific atmosphere claimed in favor of a specific temperature regime.” Id. (emphasis omitted). Appellants further contend that AAPA, Pilkington, and Pirooz do not cure the deficiencies of the Emsberger and Yamada combination because AAPA describes Yamada, Pilkington “fails to teach or suggest any ceramicization,” and Pirooz discloses the use of hydrogen and nitrogen in conventional glass of the same type as Emsberger. Id. at 9—10. For purposes of the prior art rejections, the Examiner constmes the term “lithium depleted layer” as not requiring a depletion step. Ans. 12 (“the claims do not refer to ‘depletion’ and the rejection is not based on the term ‘depletion.’”). The Examiner also responds that the combination of the rejection relates to improving the Emsberger process, therefore it is not relevant that Emsberger does not disclose using a float glass or that one would have looked to Emsberger to improve a float glass process such as Yamada. Id. at 13. Regarding the crystalline surface of Emsberger, the Examiner “fails to see how this or any other portion of Emsberger criticize[s], discredits], or otherwise discourage[s] the invention or the combination.” Id. at 14. The Examiner finds that “Emsberger clearly indicate[s] that one can have an ‘uncrystallized . . . surface region’ and that this may be a problem if it results in tension at the surface.” Id. (citing 8 Appeal 2016-003508 Application 13/288,064 Emsberger 5:58—63). The Examiner further finds that it would be understood from Emsberger that “one would be free to have an amorphous (i.e. non-crystalline) surface as long as it is not in tension.” Id. Because Emsberger desires resistance to cracks and Yamada is directed to eliminating cracks, the Examiner finds that the modification of Emsberger with Yamada would not make Emsberger unsuitable for its purpose. Id. The Examiner also responds that the claims do not recite any purported solution or associated problem to distinguish the cited prior art and that, while a specific temperature may be an obvious modification, it is not the basis for the rejection. Id. at 14—15. In the Reply Brief, Appellants argue that the positively recited step of “ceramicizing the float glass,” when properly constmed in the independent claims, is patentable over the cited prior art. Reply Br. 2—\. Specifically, Appellants contend that the Examiner erred in looking at portions of each reference in a vacuum without consideration of the teachings as a whole because (1) Emsberger does not suggest an improvement upon a float glass process and (2) the Examiner’s proposed modification of Emsberger to provide the surface required by the claims, rather than a crystalline surface and uniform composition throughout, would not be suitable for Emsberger’s purpose. Id. at 4. We find Appellants’ arguments unpersuasive of reversible error. As discussed above in connection with the indefmiteness rejection based on the term “lithium depleted layer” recited in independent claims 1 and 20, we agree with Appellants that the broadest reasonable interpretation of “lithium depleted layer” is a surface layer having a lower or depleted concentration of lithium, however, the independent claims require no minimum thickness for 9 Appeal 2016-003508 Application 13/288,064 the lithium depleted layer. Similarly, independent claims 22 and 25, which recite first and second “nearly completely amorphous region[s]” at the upper and lower surfaces, likewise recite “a thickness of less than 2000 nm” with no minimum thickness for the claimed regions. Appellants do not dispute that Emsberger’s Example 1 explicitly discloses ceramicizing an LAS glass in the atmosphere of hydrogen in an amount higher than or equal to 3% when the atmosphere comprises water vapor as required by claim 1 (Final Act. 6; Emsberger 9:15—32). In addition, Appellants do not dispute that Pilkington discloses advantages of using a float process for glass ceramic processes, namely to eliminate the need to grind the glass and to accelerate the speed of making the glass plates (Final Act. 6; Pilkington 8:29-34). Appellants also do not dispute that both Emsberger and Yamada disclose ceramicizing an LAS glass and that Emsberger and Yamada each disclose resisting or eliminating cracks in a glass ceramic (Ans. 14). Moreover, Appellants do not dispute that Yamada teaches that the occurrence of microcracks is “easily suppressed” in conditions where “the Li+ concentration at the surface is lowered and the crystal amount at the surface is reduced” (Final Act. 7; Yamada 3:12—14). Therefore, the Examiner’s further combination of Emsberger and Pilkington with Yamada for the reason of improving the ceramicization of an LAS glass by resisting or eliminating cracks (Final Act. 7; Ans. 14) is supported by the record. The problem with Appellants’ arguments against the combination, that Emsberger either teaches away or would be rendered unsuitable, is that these arguments are based on Emsberger’s theory of how its moist atmosphere improves the surface of the ceramicized glass. Emsberger 10 Appeal 2016-003508 Application 13/288,064 discloses “retardation of crystallization at the surface may have serious consequences if the crystallization is accompanied by a decrease in thermal expansion coefficient” (Emsberger 5:57—60, emphasis added). Emsberger “theorizefs] . . . that the moist furnace atmosphere required for the practice of [its] invention has the effect of preventing” the generation of cracks on the surface by preventing the surface retardation of crystallization. (Id. at 5:66—71, emphasis added). The theories of Emsberger predate the disclosure of Yamada by almost thirty years. Appellants do not explain adequately why a person having ordinary skill in the art would be led in a divergent path from lowering the lithium ion concentration at the surface, as taught by Yamada, in view of Emsberger’s theoretical explanation for the benefit of the moist atmosphere decades beforehand. In re Gurley, 27 F.3d 551, 553 (Fed. Cir. 1994). Therefore, the preponderance of the evidence in the cited record on appeal supports the Examiner’s decision to reject claim 1 under 35 U.S.C. § 103(a). In view of the foregoing, we affirm the Examiner’s rejections of claims 1—4, 7, 8, and 20—27 under 35 U.S.C. § 103(a). CONCLUSION For the reasons set forth above, we reverse the rejection of claims 1—4, 7, 8, 20, and 21 under 35 U.S.C. § 112,12, and we affirm the rejections of claims 1—4, 7, 8, and 20-27 under 35 U.S.C. § 103(a). 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 11