3D Systems, Inc.

Patent Trials and Appeals BoardNov 24, 2020

2020001079 (P.T.A.B. Nov. 24, 2020)

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. 15/832,112 12/05/2017 Raffaele Martinoni USA.1201-2 8872 22514 7590 11/24/2020 3D Systems, Inc. 3D Systems, Inc. 333 Three D Systems Circle Rock Hill, SC 29730 EXAMINER HORNING, JOEL G ART UNIT PAPER NUMBER 1712 MAIL DATE DELIVERY MODE 11/24/2020 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 RAFFAELE MARTINONI and PAUL BOEHLER __________ Appeal 2020-001079 Application 15/832,112 Technology Center 1700 __________ Before FRANCISCO C. PRATS, DEBRA L. DENNETT, and LILAN REN, Administrative Patent Judges. PRATS, Administrative Patent Judge. DECISION ON APPEAL Pursuant to 35 U.S.C. § 134(a), Appellant1 appeals from the Examiner’s decision to reject claims 1, 2, and 4–20.2 We have jurisdiction under 35 U.S.C. § 6(b). We REVERSE. 1 We use the word “Appellant” to refer to “applicant” as defined in 37 C.F.R. § 1.42. Appellant identifies 3D Systems, Inc., as the real party in interest. Appeal Br. 3. 2 The Final Action included claim 3 among the rejected claims. See Final Act. 1 (entered January 7, 2019). In the Examiner’s Answer, however, the Examiner indicated that claim 3 is allowable, and withdrew all rejections of claim 3. See Ans. 3. Appeal 2020-001079 Application 15/832,112 2 STATEMENT OF THE CASE The Specification explains that articles prepared by laser sintering of particulate polymeric materials “are sufficiently porous such that undesirable physical and esthetic properties can result.” Spec. ¶ 13. In particular, “[p]orous articles having inadequate strength, unsatisfactory hardness, low abrasion resistance, and/or rough surface finish, are significantly limited with respect to the practical applications in which such articles can be used.” Id. To improve the properties of porous polymeric articles prepared by laser sintering, Appellant’s invention is directed to a “method of infiltrating an article prepared by a laser sintering process, wherein the dimensions of the article are retained during the infiltration process, the flexibility of a flexible article is maintained, and the physical and esthetic properties of the article are improved.” Spec. ¶ 2. Appellant’s claim 1, the sole independent claim on appeal, is illustrative of the appealed subject matter and reads as follows: 1. A method of infiltrating a flexible article prepared by a laser sintering method, the method comprising: (a) applying a liquid infiltrant to the article for a sufficient time to allow the liquid infiltrant to infiltrate the article, said liquid infiltrant comprising: (i) an elastomeric material comprising a naturally occurring resin, a synthetic resin, or a mixture thereof; (ii) a vehicle comprising a majority of water; and (iii) an optional colorant; (b) drying the infiltrated article; and (c) optionally, repeating (a) and (b) until the article is infiltrated to a desired degree, wherein the infiltrated article is flexible. Appeal Br. 21 (Claims App.). Appeal 2020-001079 Application 15/832,112 3 The following rejections3,4 are before us for review: (1) Claims 1, 2, 5–7, 9, 13–16, and 18, under 35 U.S.C. § 103(a) as being unpatentable over DTM,5 Magnus,6 and O’Farrell7 (Final Act. 2–5); (2) Claims 4 and 8, under 35 U.S.C. § 103(a) as being unpatentable over DTM, Magnus, O’Farrell, McGlothlin,8 and Kopian9 (Final Act. 6–7); (3) Claims 10–12 and 15, under 35 U.S.C. § 103(a) as being unpatentable over DTM, Magnus, O’Farrell, and Marx10 (Final Act. 7–8); (4) Claims 16 and 18, under 35 U.S.C. § 103(a) as being unpatentable over DTM (Final Act. 9–10); (5) Claims 17, 19 and 20, under 35 U.S.C. § 103(a) as being unpatentable over DTM and Chong11 (Final Act. 10); and (6) Claims 17, 19 and 20, under 35 U.S.C. § 103(a) as being unpatentable over DTM, Magnus, O’Farrell, and Chong (Final Act. 10–11). 3 The Examiner withdrew a number of rejections that were maintained in the Final Action. See Ans. 3. 4 The Final Action included a rejection for obviousness-type double patenting over U.S. Patent No. 9,862,148. Final Act. 17. In view of the decision entered April 8, 2019, approving Appellant’s terminal disclaimer filed April 5, 2019, the double patenting rejection is moot, and we do not discuss it. 5 www.theautochannel.com/news/press/date/19990407/press021449.html 6 US 4,946,717 (issued Aug. 7, 1990). 7 US 4,117,186 (issued Sept. 26, 1978). 8 US 2003/0141633 A1 (published July 31, 2003). 9 US 5,156,696 (issued Oct. 20, 1992). 10 US 3,907,737 (issued Sept. 23, 1975). 11 US 2001/0043990 A1 (published Nov. 22, 2001). Appeal 2020-001079 Application 15/832,112 4 DISCUSSION In rejecting claims 1, 2, 5–7, 9, 13–16, and 18 over DTM, Magnus, and O’Farrell, the Examiner cited DTM as disclosing a process of using a polymeric infiltrant to infiltrate articles produced by laser sintering. Final Act. 2–3. The Examiner found that with DTM’s process differs from the claimed process in that “DTM does not specifically state what the elastomer composition is for the polymeric infiltrant material.” Id. at 3. The Examiner cited Magnus as evidence that it would have been obvious to use a water-containing material as the infiltrant for DTM’s laser sintered articles, as recited in Appellant’s claim 1. Final Act. 3. The Examiner cited O’Farrell as evidence that it would have been obvious to dry Magnus’s coating after it was applied to DTM’s articles, as also recited in claim 1. Id. at 4. As stated in In re Oetiker, 977 F.2d 1443, 1445 (Fed. Cir. 1992): [T]he examiner bears the initial burden . . . of presenting a prima facie case of unpatentability. . . . After evidence or argument is submitted by the applicant in response, patentability is determined on the totality of the record, by a preponderance of evidence with due consideration to persuasiveness of argument. In KSR Int’l Co. v. Teleflex Inc., 550 U.S. 398 (2007), although the Supreme Court emphasized “an expansive and flexible approach” to the obviousness question, id. at 415, it also reaffirmed the importance of determining “whether there was an apparent reason to combine the known elements in the fashion claimed by the patent at issue.” Id. at 418 (emphasis added). Thus, as the Federal Circuit has explained, even post-KSR, “obviousness concerns whether a skilled artisan not only could have made Appeal 2020-001079 Application 15/832,112 5 but would have been motivated to make the combinations or modifications of prior art to arrive at the claimed invention.” Belden Inc. v. Berk-Tek LLC, 805 F.3d 1064, 1073 (Fed. Cir. 2015) Ultimately, therefore, “[i]n determining whether obviousness is established by combining the teachings of the prior art, the test is what the combined teachings of the references would have suggested to those of ordinary skill in the art.” In re GPAC Inc., 57 F.3d 1573, 1581 (Fed. Cir. 1995) (internal quotations omitted). We agree with Appellant that a preponderance of the evidence does not support the Examiner’s conclusion of obviousness. In particular, Appellant persuades us that the Examiner has not explained sufficiently why the cited references would have suggested using Magnus’s coating for uncured rubber as the infiltrant for DTM’s laser sintered article. As the Examiner found, DTM discloses a process of making articles, such as automotive hoses and gaskets, by first laser sintering a particulate thermoplastic elastomer (“the Somos 201 powder”), and then infiltrating the laser-formed articles with a “new polymer material.” DTM. DTM discloses that the “Somos 201 laser-sintered parts infiltrated with the new polymer material are watertight, exhibit greatly increased burst strength, wear resistance, improved tear resistance, and enhanced surface finish.” Id. DTM explains that “[t]he ability to rapidly create strong, watertight, flexible prototypes will allow us to address applications where the final part would be made from rubber or a thermoplastic elastomer. Automotive hoses, gaskets, and door seals are obvious examples.” DTM (internal quotations omitted). Appeal 2020-001079 Application 15/832,112 6 As explained in Appellant’s Specification, infiltration with additional material, as disclosed in DTM, is required because articles formed from laser sintering are porous, and therefore have limited practical applications, due to lack of strength, and other inadequate physical properties. Spec. ¶ 13. As Appellant points out, Magnus repeatedly describes its coating as being specifically intended for application to uncured rubber. See Magnus, abstract (describing invention as a “water based coating composition for unvulcanized rubber articles” and disclosing that the coating “is placed on an uncured rubber article prior to vulcanization and results in improved molding of the rubber article and provides a final rubber vulcanizate that possesses superior antidegradative properties”; see also id. at 1:4–18 (“This invention is concerned with and relates to a water based precure paint that is useful on articles such as truck and passenger tires, off the road tires, hoses, belts and other articles that are molded during vulcanization and are exposed to oxidative environments.” (emphasis added)); id. at 1:18-22 (“The precure paint (hereinafter PCP) of this invention facilitates rubber flow and air bleed during the early stages of cure (vulcanization) and further results in a final rubber article having as an integral part thereof an oxidatively resistant coating.”). We are not persuaded that the Examiner has explained sufficiently why the combined teachings of the cited references would have motivated a skilled artisan to use Magnus’s coating as the infiltrant for the laser-formed porous articles taught in DTM, given Magnus’s repeated teachings that its coating is specifically intended and formulated for application to uncured rubber. In that regard, the Examiner does not dispute Appellant’s contention that DTM’s laser-formed porous article is not uncured rubber. Appeal 2020-001079 Application 15/832,112 7 Rather, the Examiner contends that the oxidative resistance imparted by Magnus’s coating to rubber products would motivate a skilled artisan to use Magnus’s coating as DTM’s infiltrant: The substrate materials [of DTM and Magnus] are both elastomers designed for similar uses. It would be surprising if the rubber gasket of DTM was not susceptible to oxidation, and the advantages of the coating components taught by Magnus are readily applicable to DTM. If Magnus requires a subsequent curing process of the coating material to produce the desired properties in the coating, a practitioner could subsequently cure the applied coating composition. Ans. 3–4. The Examiner, however, does not point to any specific teachings in any of the cited references explaining why the porous material in DTM’s pre-infused laser-formed articles is similar to uncured rubber, to an extent sufficient to motivate a skilled artisan to use Magnus’s coating as DTM’s infiltrant. Given Magnus’s repeated teachings that its precure coating is specifically intended and formulated for application to uncured rubber, we are not persuaded that the mere presence of anti-degradation ingredients in Magnus’s coating would have been sufficient to motivate a skilled artisan to apply that coating to a porous article which on this record has not been shown to have any meaningful similarities with uncured rubber. We are unpersuaded, moreover, by the Examiner’s conclusion, noted above, that it would have been obvious to cure Magnus’s coating once applied to DTM’s laser-formed article, to afford the anti-degradation properties of the coating. See Ans. 3–4. In that regard, the Examiner does not specifically address, or even dispute, Appellant’s contention that the curing temperatures described in Magnus would be unsuitable for use with the polymers used in DTM’s laser-formed article. See Appeal Br. 7 (citing Appeal 2020-001079 Application 15/832,112 8 Declaration of Raffaele Martinoni under 37 C.F.R. § 1.132 (signed February 18, 2014) (“Martinoni Declaration” or “Martinoni Decl.”); see also Magnus 8:7–9 (curing coated rubber composition at 150° C for 20 minutes at 10,000 psi); Martinoni Decl. ¶ 8 (based on experience, DTM’s laser sintered material softens and melts at 150° C rendering it unsuitable for use). In sum, for the reasons discussed, we are not persuaded that a preponderance of the evidence supports the Examiner’s determination that a skilled artisan would have combined the teachings in DTM and Magnus to arrive at the process recited in Appellant’s claim 1. As noted above, the Examiner relies on O’Farrell solely as suggesting claim 1’s drying step. Accordingly, because we are not persuaded that the Examiner has explained sufficiently why the teachings of DTM, Magnus, and O’Farrell would have suggested a process having all of the steps and features recited in Appellant’s claim 1, we reverse the Examiner’s obviousness rejection of claim 1, and its dependent claims 2, 5–7, 9, 13–16, and 18, over those references. In rejecting claims 4 and 8 over DTM, Magnus, O’Farrell, McGlothlin, and Kopian, the Examiner cited McGlothlin and Kopian as evidence that the additional features recited in dependent claims 4 and 8 would have been obvious variations of the process suggested by DTM, Magnus, and O’Farrell. See Final Act. 6–7. Similarly, in rejecting claims 10–12 and 15 over DTM, Magnus, O’Farrell, and Marx, the Examiner cited Marx as evidence that the additional features recited in dependent claims 10–12 and 15 would have been obvious variations of the process suggested by DTM, Magnus, and O’Farrell. See Final Act. 7–8. Appeal 2020-001079 Application 15/832,112 9 Because the Examiner does not identify any teachings in McGlothlin, Kopian, and Marx that remedy the deficiencies discussed above in the combination of DTM, Magnus, and O’Farrell, we reverse the Examiner’s rejection of claims 4 and 8 over DTM, Magnus, O’Farrell, McGlothlin, and Kopian, as well as the Examiner’s rejection of claims 10–12 and 15 over DTM, Magnus, O’Farrell, and Marx. Appellant’s claim 16 recites “[a]n infiltrated article prepared by the method of claim 1.” Appeal Br. 24. Appellant’s claim 18 recites “[t]he infiltrated article of claim 16, wherein the article exhibits improved tear strength and elongation at break compared to the article prior to infiltration.” Appeal Br. 24. In rejecting claims 16 and 18 over DTM, the Examiner again cited DTM for its disclosure of forming prototypes from laser sintered articles infiltrated with a polymeric material, and reasoned that, [s]ince DTM teaches that these materials are normally made from elastomer, it would have been obvious to a person of ordinary skill in the art at the time of invention to fill the pores of the gasket with an elastomer [that] would make the prototype a more accurate representation of a production part (e.g. gasket). Final Act. 9. The Examiner further noted that, although product-by-process claims “are limited by and defined by the process, determination of patentability is based on the product itself.” Final Act. 9 (citing In re Thorpe, 777 F.2d 695, 698 (Fed. Cir. 1985)). Therefore, the Examiner reasoned, “the resulting structure of an article with infiltrated elastomer is the required structure, and specific recitations directed towards drying or vehicles used are not further Appeal 2020-001079 Application 15/832,112 10 limiting to the claim, unless they produce some sort of structural difference (claim 16).” Id. Appellant contends that the articles produced by the process suggested by DTM are structurally different because DTM’s process uses an infiltrant that results in significant swelling of the final article, whereas using a water- based infiltrant as recited in claim 1 does not result in any appreciable swelling in the final article. Appeal Br. 16–17 (citing Martinoni Decl. ¶¶ 6– 7). The Examiner does not respond to Appellant’s arguments traversing the rejection of claims 16 and 18. Thus, the Examiner does not provide any explanation as to why we should consider Appellant’s arguments unpersuasive as to that rejection. Nor does the Examiner identify any evidence controverting the evidence advanced by Appellant supporting the assertion that the water-based infiltrant of claim 1 produces a product that is structurally different from the product suggested by DTM. Given the absence of any explanation why we should consider Appellant’s arguments unpersuasive, and the absence of any evidence controverting the evidence advanced by Appellant, we find that the preponderance of the evidence does not support the Examiner’s determination that the products recited in claims 16 and 18 would have been obvious over DTM. We, therefore, reverse the Examiner’s rejection of claims 16 and 18 over DTM. Claims 17, 19, and 20 all depend from claim 16. See Appeal Br. 24. In rejecting claims 17, 19, and 20 over DTM and Chong, the Examiner cited Chong as evidence that the additional features recited in claims 17, 19, and 20 would have been obvious variations of the product suggested by DTM. Appeal 2020-001079 Application 15/832,112 11 See Final Act. 10. Similarly, in rejecting claims 17, 19, and 20 over DTM, Magnus, O’Farrell, and Chong, the Examiner cited Chong as evidence that the additional features recited in dependent claims 17, 19, and 20 would have been obvious variations of the product suggested by DTM, Magnus, and O’Farrell. See id. at 10–11. In traversing these rejections, Appellant relies on its arguments directed to claim 16, discussed above. See Appeal Br. 17–18. Accordingly, for essentially the same reasons as to claim 16, we reverse the Examiner’s rejections of claims 17, 19, and 20. DECISION SUMMARY In summary: Claims Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 1, 2, 5–7, 9, 13–16, 18 103(a) DTM, Magnus, O’Farrell 1, 2, 5–7, 9, 13–16, 18 4, 8 103(a) DTM, Magnus, O’Farrell, McGlothlin, Kopian 4, 8 10–12, 15 103(a) DTM, Magnus, O’Farrell, Marx 10–12, 15 16, 18 103(a) DTM 16, 18 17, 19, 20 103(a) DTM, Chong 17, 19, 20 17, 19, 20 103(a) DTM, Magnus, O’Farrell, Chong 17, 19, 20 Overall Outcome 1, 2, 4–20 REVERSED