14007033 - (D) (P.T.A.B. Jan. 14, 2019)

Ex Parte Cinader et al

Patent Trials and Appeals BoardJan 14, 2019

14007033 - (D) (P.T.A.B. Jan. 14, 2019)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 14/007,033 09/24/2013 32692 7590 01/16/2019 3M INNOVATIVE PROPERTIES COMPANY PO BOX 33427 ST. PAUL, MN 55133-3427 FIRST NAMED INVENTOR David K. Cinader Jr. 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. 67277US004 2940 EXAMINER MORAN, EDWARD JOHN ART UNIT PAPER NUMBER 3772 NOTIFICATION DATE DELIVERY MODE 01/16/2019 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): LegalUSDocketing@mmm.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte DAVID K. CINADER JR., BILL H. DODGE, and BRADLEY W. EATON Appeal 2017-011676 Application 14/007,033 1 Technology Center 3700 Before DONALD E. ADAMS, ERIC B. GRIMES, and RYAN H. FLAX, Administrative Patent Judges. ADAMS, Administrative Patent Judge. DECISION ON APPEAL This Appeal under 35 U.S.C. Â§ 134(a) involves claims 2---6, 9--11, 13, 16, 17, 19-22, and 35-39 (Final Act. 2 1). Examiner entered rejections under 35 U.S.C. Â§ 103(a). We have jurisdiction under 35 U.S.C. Â§ 6(b). We AFFIRM. 1 Appellants identify "3M Innovative Properties Co., ... which is a subsidiary of 3M Co.," as the real party in interest (App. Br. 3). 2 Examiner's August 12, 2016 Final Office Action. Appeal 2017-011676 Application 14/007,033 STATEMENT OF THE CASE Appellants' disclosure relates to "[ c ]omposite materials and related methods useful in the field of dentistry" (Spec. 1 :7-8). Claims 2, 5, and 6 are representative and reproduced below: 2. A dental assembly comprising: a dental article having an outer surface for attachment to a tooth; and an adhesive in contact with the outer surface, the adhesive comprising: and a compressible material carrier having interior surfaces that are hidden from view; a conformal coating disposed on at least a portion of the compressible material, wherein the coating has a substantially uniform thickness and is disposed on interior surfaces of the compressible material that are hidden from view, and wherein the thickness of the conformal coating is in the range of 2 to 20 nanometers. 5. The assembly of claim 2, wherein the compressible material comprises meltblown nonwoven microfibers. 6. The assembly of claim 5, wherein the microfibers have an average effective fiber diameter ranging from 0.1 to 20 micrometers. (App. Br. 16.) 2 Appeal 2017-011676 Application 14/007,033 Grounds of rejection before this Panel for review: Claims 2-5, 10, 11, 13, 16, 17, 19-22, 35, and 37-39 stand rejected under 35 U.S.C. Â§ I03(a) as unpatentable over the combination of Cinader3 and Parsons. 4 Claims 6, 9, and 36 stand rejected under 35 U.S.C. Â§ I03(a) as unpatentable over the combination of Cinader, Parsons, and Weisman. 5 ISSUE Does the preponderance of evidence relied upon by Examiner support a conclusion of obviousness? FACTUAL FINDINGS (FF) FF 1. Cinader discloses an assembly including: a dental article ( e.g., an orthodontic appliance) for bonding to tooth structure, the article having an outer surface; and a compressible material attached to the surface of the article. Preferably, the compressible material is mechanically bonded to the surface of the article, chemically bonded to the surface of the article, or a combination thereof. In certain embodiments, the compressible material includes a hardenable or partially hardened dental composition ( e.g., a foamed dental composition). (Cinader ,r 5; see also id. ,r 34--35; see Final Act. 3.) FF 2. Cinader defines the term "dental composition" as "a material ( e.g., a dental or orthodontic material) capable of adhering (e.g., bonding) to a tooth structure. Dental compositions include, for example, adhesives ( e.g., dental and/or orthodontic adhesives)" (Cinader ,r 9; see Final Act. 3). 3 Cinader, Jr., US 2009/0233252 Al, published Sept. 17, 2009. 4 Parsons et al., US 2009/0137043 Al, published May 28, 2009. 5 Weisman et al., US 4,865,596, issued Sept. 12, 1989. 3 Appeal 2017-011676 Application 14/007,033 FF 3. Cinader discloses: As used herein, "mechanically bonded" means bonded or attached through physical means ( e.g., using hooks, loops, protrusions, van der Waals interactions, ionic bonds, and the like, including combinations thereof), and in certain embodiments utilizing the undercuts provided by mesh ( e.g., on Victory Series brackets) and glass grit (e.g., on ceramic brackets). As used herein, "chemically bonded" means bonded or attached through chemical means (e.g., via shared electron pairs such as covalent bonding, coordinate covalent bonding, acid-base interactions such as Br0nsted-Lowry reactions, and the like, including combinations thereof). For example, a hardenable dental composition ( e.g., a hardenable resin, glass ionomer, resin-modified glass ionomer, and/or epoxy) can be hardened to chemically bond the compressible material [] to surface [] of dental article []. In certain embodiments, compressible material [] can be surface treated ( e.g., with a silane coupling agent) to enhance the bond to surface [] of dental article []. In some embodiments, the compressible material [] can be bonded to surface [] of dental article [] by melting or softening the compressible material. (Cinader ,r 58; see Final Act. 3.) FF 4. Cinader discloses that "[a] wide variety of compressible materials can be used in [its] assemblies ... including, for example, porous materials" (Cinader ,r 38; see Final Act. 3). FF 5. Cinader discloses: "Exemplary porous materials include foams (e.g., polymeric foams including, for example, cellulose foams, glass foams, polymeric foams, and combinations thereof), sponges, nonwoven fabrics, glass fibers ( e.g., glass wool), ceramic fibers, cotton fibers, cellulose fibers, woven mats, nonwoven mats, scrims, and combinations thereof' (Cinader ,r 42; see Final Act. 3). 4 Appeal 2017-011676 Application 14/007,033 FF 6. Cinader discloses: For embodiments in which the compressible material includes fibers, the fibers can optionally be tied together ( e.g., using a reactive silane, a curable resin, or a colloidal silica) to form a mat or scrim. In certain embodiments, mats can be prepared, for example, using short chopped glass or other fiber loosely bound. Optionally, the fibers can be temporarily encapsulated into a sheet or web to aid in cutting and handling using, for example, a water soluble or dispersible encapsulant ( e.g., polyvinyl alcohol). In such embodiments, the mat can be cut into a desired shape and attached to an outer surface of a bracket, and the temporary encapsulant can then be washed away. In certain embodiments, nonwoven structures can be used as carriers for loading a reinforcing material (e.g., short chopped fibers) to enhance the strength of the composite formed upon curing. (Cinader ,r 43; see Final Act. 3.) FF 7. Cinader discloses: A dental article ( e.g., an orthodontic appliance) can be bonded to a tooth structure using compressible materials and hardenable dental compositions ... using direct and/or indirect methods. For [ example a] ... compressible material [] and a hardenable dental composition is contacted with tooth structure [] and base [] of [an] orthodontic appliance []; and the hardenable dental composition is hardened. During this procedure, the orthodontic appliance is applied to the tooth structure with sufficient pressure to substantially fill any gaps between the appliance and tooth structure. . . . Because the contour of the tooth structure surface may not precisely match the contour of the outer surface of the base [], compressible material [] can be essentially completely compressed ( e.g., at most 10% original pore volume remaining) in some areas, and essentially uncompressed ( e.g., at least 90% of original pore volume remaining), or somewhat compressed in other areas. In certain embodiments, compressing compressible material [] as completely as possible to minimize the distance between [the] 5 Appeal 2017-011676 Application 14/007,033 appliance [] and tooth structure [] can be advantageous for accurately expressing the prescription of the appliance. (Cinader ,r 152; see Final Act. 3--4.) FF 8. Examiner found that Cinader "does not teach[] a conformal coating [] disposed on at least a portion of the compressible material/polymeric component as required" by Appellants' claimed invention, and relies on Parsons to make up for this deficiency in Cinader (Final Act. 4). FF 9. Parsons discloses: Coatings of inorganic materials, ... allow the creation of multifunctional textiles. Multifunctional textiles are materials that possess a combination of many different properties such as flame retardancy, water repellency, and antibacterial activity. These multifunctional textiles can be used for a number of different tasks, for example in such industries as medical, geotextiles and construction, upholstery, and filtration, to name a few. It is still desirable, however, for these coated textiles to still meet consumer demand in regards to comfort, ease of care, and health issues. Also, modified textile materials can protect against mechanical, thermal, chemical, and biological attacks, and at the same time offer improved durability and performance. (Parsons ,r 8.) FF 10. Parsons relates "to a process for the modification of the surface and bulk properties of fiber and textile media, including synthetic polymeric and natural fibers and yams in woven, knit, and non-woven form by low- temperature ALD [ Atomic Layer Deposition]" (Parsons ,r 3; see id. ,r 40 ("The terms 'fiber' and 'fiber-based substrate' as used herein, are meant in their broadest sense to encompass all materials having a fibrous structure"); ,r 67; Final Act. 4). FF 11. Parsons' "ALD technique can permit the controlled deposition of thin films of up to about 0.5 nm per cycle, providing a method for precise 6 Appeal 2017-011676 Application 14/007,033 control over coating thickness" (Parson ,r 47; see id. ,r 43 ("film thickness is directly controlled by the number of reactant exposure cycles used"); see ,r 46; see also id. ,r 92 ( exemplifying the deposition of Ab03 onto a substrate in ten ALD cycles); Final Act. 4). FF 12. Parsons discloses: Coatings that are of particular interest are those which ( 1) improve stability of a material for mechanical, chemical, photo- chemical, or thermal destruction, (2) improve water, oil, and soil repellency properties of a material, (3) exhibit unique light absorption and emission properties in the UV and IR regions, ( 4) change the electrical conductivity of a material, ( 5) control release or immobilization of various active species. In addition, fibers and textile materials that are modified by such films can exhibit increased yield strength, reduced strain at yield stress, increased elastic modulus, increased fiber toughness, as well as increased wettability. It will be recognized that many materials are useful for more than one of these applications and that inorganic thin films will be useful for other applications not described here. (Parsons ,r 56.) FF 13. Parsons discloses that "Aluminum oxide is [a] good example of a coating material that can be deposited using ALD. Aluminum oxide has many favorable traits including strong adhesion to different substrate surfaces, good dielectric properties, and good chemical and thermal stability (Parsons ,r 57; see also id. ,r 48; Final Act. 4.) FF 14. Examiner finds that the combination of Cinader and Parsons "does not explicitly teach that the fibers have an average effective fiber diameter ranging from 0.1-20 or 2.5-6 microns" and relies on Weisman to make up for this deficiency in the combination of Cinader and Parsons (Final Act. 5). 7 Appeal 2017-011676 Application 14/007,033 ANALYSIS The combination of Cinader and Parsons: Based on the combination of Cinader and Parsons, Examiner concludes that, at the time Appellants' invention was made, it would have been prima facie obvious to coat the compressible fibrous material of Cinader's device with Parsons' aluminum oxide conformal coating to enhance the properties ofCinader's fibrous material (see FF 1-13; see generally Final Act. 4). As Examiner explains, the combination of Cinader and Parsons would result in a device wherein "the hardenable composition would be in contact with the coating" (id. at 4--5). Appellants' claim 2 does not require the conformal coating to provide increased bond strength and/ or reduce bond variability between the compressible material and the surrounding adhesive matrix (see App. Br. 16). Therefore, we are not persuaded by Appellants' contention that "[ t ]he present specification provides a number of examples illustrating how the conformal coating can provide increased bond strength and reduce bond variability between the compressible material and the surrounding adhesive matrix" (id. at 6; see also id. at 5-7; Reply Br. 2 ("The conformal coating provides increased bond strength and reduced bond variability between the compressible material and the surrounding adhesive matrix")). Appellants' claim 2 does not require a coating that enhances bonding to an adhesive matrix or "a conformal coating to modify the adhesion between the fibers in the compressible material carrier and the surrounding adhesive" (see App. Br. 8; see also id. at 10-11; Reply Br. 3---6). Therefore, we are not persuaded by Appellants' contentions that neither Cinader nor Parsons suggest modifying fibers to include a coating to enhance bonding to 8 Appeal 2017-011676 Application 14/007,033 an adhesive matrix (App. Br. 8; see also id. at 9 ("conspicuous by its absence is any disclosure in Parsons that the coatings can be applied to fibers to enhance adhesion of the coated fibers to a surrounding adhesive matrix")). For the foregoing reasons, we are not persuaded by Appellants' contention that Parsons disclosed "benefits of ALD coatings on fiber and textile materials ... [that] are far afield from adhesive bonding in an oral environment" (see App. Br. 9; see also id. at 12 ("Parsons fails to recognize or appreciate that a conformal coating can enhance bonding between a fiber and an adhesive matrix material"); Reply Br. 2-5; cf FF 9-13). Therefore, we are not persuaded by Appellants' contention that Examiner "failed to show that either Cinader nor Parsons recognize or appreciate the need to improve properties of the fibers in the compressible materials such as bond strength to the adhesive matrix," which is not required by Appellants' claim 2 (App. Br. 9). Parsons discloses improving fibrous materials, such as those disclosed by Cinader, for use in medical applications (FF 1-13). Therefore, we are not persuaded by Appellants' contentions relating to the rationale for combining Parsons with Cinader (see App. Br. 10). See In re Beattie, 974 F.2d 1309, 1312 (Fed. Cir. 1992) ("As long as some motivation or suggestion to combine the references is provided by the prior art taken as a whole, the law does not require that the references be combined for the reasons contemplated by the inventor."). Parsons discloses that the ALD method provides precise control over coating thickness and exemplifies the deposition of Ab03 onto a substrate in ten ALD cycles, wherein thin films ofup to about 0.5 nm thickness are added per cycle, resulting in a coating thickness of about 5 nm (FF 11 ). 9 Appeal 2017-011676 Application 14/007,033 Therefore, we are not persuaded by Appellants' contention that the combination of Cinader and Parsons fails to suggest a conformal coating thickness in the range of 2 to 20 nanometers as required by Appellants' claim 2 or that Examiner failed to establish "that modifying Parsons' processes to reach the claimed thickness range would only involve routine experimentation, as Parsons fails to recognize or appreciate the criticality of the thickness of the conformal coating" (see App. Br. 11-12). To be complete, we recognize that Examiner makes reference to Cinader's paragraph 58, which discloses, inter alia, that Cinader's "compressible material [] can be surface treated ... to enhance the bond to [the] surface[] of [a] dental article" (see Final Act. 3; FF 3). Therefore, we are not persuaded by Appellants' contention that Examiner provided no support for the proposition that "Cinader 'discloses that treatments can be provided to improve the bonding of the material, teaching to one of ordinary skill in the art that weak bonding may be of concern" (App. Br. 8 (footnote omitted); see also Reply Br. 2). The combination of Cinader, Parsons, and Weisman: Based on the combination of Cinader, Parsons, and Weisman, Examiner concludes that, at the time Appellants' invention was made, it would have been prima facie obvious to modify the device suggested by the combination of Cinader and Parsons with Weisman because Cinader discloses "that the materials disclosed in Weisman are exemplary for the device of Cinader" (Final Act. 5 (citing Cinader ,r 42)). 10 Appeal 2017-011676 Application 14/007,033 Having found no deficiency in the combination of Cinader and Parsons, we are not persuaded by Appellants' contention that Weisman fails to "cure[] the deficiencies of Cinader and Parsons" (App. Br. 14). CONCLUSION The preponderance of evidence relied upon by Examiner supports a conclusion of obviousness. The rejection of claim 2 under 35 U.S.C. Â§ 103(a) as unpatentable over the combination of Cinader and Parsons is affirmed. Claims 3-5, 10, 11, 13, 16, 17, 19-22, 35, and 37-39 are not separately argued and fall with claim 2. The rejection of claim 6 under 35 U.S.C. Â§ 103(a) as unpatentable over the combination of Cinader, Parsons, and Weisman is affirmed. Claims 9 and 36 are not separately argued and fall with claim 6. TIME PERIOD FOR RESPONSE No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. Â§ 1.136(a). AFFIRMED 11