Rick Carvalho
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Recruitment
Development and testing of innovative materials for dental and other medical applications
Complete these steps before you reach out to a faculty member!
- Familiarize yourself with program requirements. You want to learn as much as possible from the information available to you before you reach out to a faculty member. Be sure to visit the graduate degree program listing and program-specific websites.
- Check whether the program requires you to seek commitment from a supervisor prior to submitting an application. For some programs this is an essential step while others match successful applicants with faculty members within the first year of study. This is either indicated in the program profile under "Admission Information & Requirements" - "Prepare Application" - "Supervision" or on the program website.
- Identify specific faculty members who are conducting research in your specific area of interest.
- Establish that your research interests align with the faculty member’s research interests.
- Read up on the faculty members in the program and the research being conducted in the department.
- Familiarize yourself with their work, read their recent publications and past theses/dissertations that they supervised. Be certain that their research is indeed what you are hoping to study.
- Compose an error-free and grammatically correct email addressed to your specifically targeted faculty member, and remember to use their correct titles.
- Do not send non-specific, mass emails to everyone in the department hoping for a match.
- Address the faculty members by name. Your contact should be genuine rather than generic.
- Include a brief outline of your academic background, why you are interested in working with the faculty member, and what experience you could bring to the department. The supervision enquiry form guides you with targeted questions. Ensure to craft compelling answers to these questions.
- Highlight your achievements and why you are a top student. Faculty members receive dozens of requests from prospective students and you may have less than 30 seconds to pique someone’s interest.
- Demonstrate that you are familiar with their research:
- Convey the specific ways you are a good fit for the program.
- Convey the specific ways the program/lab/faculty member is a good fit for the research you are interested in/already conducting.
- Be enthusiastic, but don’t overdo it.
G+PS regularly provides virtual sessions that focus on admission requirements and procedures and tips how to improve your application.
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ADVICE AND INSIGHTS FROM ÑÇÖÞÌìÌà FACULTY ON REACHING OUT TO SUPERVISORS
These videos contain some general advice from faculty across ÑÇÖÞÌìÌà on finding and reaching out to a potential thesis supervisor.
Supervision Enquiry
Graduate Student Supervision
Doctoral Student Supervision
Dissertations completed in 2010 or later are listed below. Please note that there is a 6-12 month delay to add the latest dissertations.
Zirconia has seen a marked increase in its use in dentistry. The sintering of soft milled zirconia is accompanied by high shrinkage, approximately 20–30%. Sintering shrinkage is usually estimated as a single value for each blank, and manufacturers do not provide information on how shrinkage percentage is calculated and whether the estimated shrinkage percentage is based on linear or volumetric changes. In order to compensate for sintering shrinkage, the dimensions of the milled frameworks are enlarged by an appropriate factor, which supposedly corresponds to the estimated shrinkage upon sintering. Since dimensional changes are unavoidable during the processing of zirconia, the purpose of this series of studies was to understand how different preparation designs may affect dimensional changes during sintering, especially when using different sintering protocols, and how that would affect the fitting of the crown (Chapter 1). A systematic overview of how altering sintering protocol could affect the microstructure, mechanical and optical properties of zirconia material was conducted (Chapter 2). Then a systematic review of literature on the factors affecting the marginal fit of zirconia crowns was assessed qualitatively (Chapter 3). Subsequently, the effects of different preparation designs and sintering protocols on the marginal fit of zirconia crowns were investigated (Chapter 4). Afterward, the linear and volumetric dimensional differences between the virtual, milled and sintered copings as a result of the two different sintering protocols were measured (Chapter 5). Our search demonstrated that fast sintering improved the optical properties of zirconia but decreased its flexural strength. There was a lack of studies investigating the effects of different sintering protocols on marginal fit and dimensional changes of zirconia prostheses. There was a significant interaction between the crown thickness, finish line width and sintering protocol on the marginal fit of zirconia crowns. There was also a significant interaction between the coping design, processing stage and sintering protocol on linear and volumetric dimensions of zirconia copings. The combined outcome of this series of experiments allowed the proposition of the ideal combination of design and sintering protocol that results in minimal distortion and improves fitting of zirconia crowns.
Master's Student Supervision
Theses completed in 2010 or later are listed below. Please note that there is a 6-12 month delay to add the latest theses.
The full abstract for this thesis is available in the body of the thesis, and will be available when the embargo expires.
Introduction: Computer-aided design/computer-aided manufacturing in dentistry has lead to rapid expansion of new dental materials. A new product from Shofu (Shofu, Japan), TRINIA CAD/CAM blocks and pucks, offers an alternative to the existing resin composite CAD/CAM materials. The claimed mechanical properties of TRINA provide merit to further research and development of 3D fiber reinforced composites for CAD/CAM dentistry. Objective: To design and produce 3D braided fiber-reinforced composites for dental CAD/CAM applications. Materials and Methods: Experimental groups were designed and produced in conjunction with the Department of Materials Engineering, ÑÇÖÞÌìÌÃ. The proposed design parameters included: 50:50 volume fraction fibers, 45-degree braiding angle, and 14 mm*14 mm cross sectional area, the approximate size of currently available CAD/CAM blocks. Continuous S-2 glass fiber roving was used as the reinforcing agent. Three experimental 3D glass fiber preforms were produced with internal structural variations using a 4-step braiding technique. A 50:50 UDMA:TEGDMA resin matrix blend with a thermal curing agent was used for infiltration via submersion under vacuum, followed by thermal curing. An unreinforced resin blend and a unidirectional fiber-reinforced composite, with the same volume fraction and dimensions, served as control groups. Samples were prepared to 4 mm*4 mm*45 mm beams for three-point-bend testing. An Instron 5969 Dual Column Material Testing System was used to test the flexural properties of the samples. Scanning electron microscopy (SEM) was used to evaluate the fractured samples. Results: Results showed that incorporation of anisotropic unidirectional fibers had the most significant effect in reinforcing the resin blend. The unidirectional control group produced the greatest flexural strength and elastic modulus at 336.6 MPa and 37.3 GPa, respectively. The 2-ply+axial group followed at 236.52 MPa and 20.75 GPa. The 2-ply had values of 196.2 MPa and 11.83 GPa. The 4-ply had values of 96.48 MPa and 4.906 GPa. The 4-ply group failed to reinforce a resin control group, which had values of 102.65 MPa and 2.467 GPa.Conclusion: Incorporation of anisotropic reinforcing fibers has most significant influence on the experimental materials flexural properties.
Electrospun nanofibers with and without nanoparticles are poorly explored in dental research. Nanocrystalline cellulose is a nanoparticle with distinguished properties that has already been associated with nanofibers, but yet not applied to any dental aspect.The objective of this work was to investigate the use of polyacrylonitrile (PAN) nanofibers containing nanocrystalline cellulose (NCC) in the light of the mechanical behavior of fibrous mat and experimental dental composites. Three experiments were performed to answer the following research questions: 1) Can nanocrystalline cellulose improve mechanical properties of polyacrylonitrile nanofiber meshes? 2) Does the method of dispersion (simple mixture vs. with solvent exchange) of NCC in PAN solution affect fiber formation and the respective properties of the meshes? and 3) Can NCC-containing PAN electrospun nanofibers affect flexural properties of experimental dental composites?Results showed that nanocrystalline cellulose, at low concentrations, significantly increases PAN nanofibers tensile properties (chapter 2). Dispersion methods affected both the morphology and mechanical properties of the fibers (chapter 3). Finally, when NCC-containing PAN nanofibers were used to produce experimental dental composites, there was a significant improvement in flexural strength and work of fracture (chapter 4). In conclusion, the findings indicated that the use of electrospun nanofibers and nanofibres containing nanoparticles is a promising approach to reinforce dental composites.
Publications
- (2024)
Frontiers in Bioengineering and Biotechnology, 12 - (2024)
Cell Reports Physical Science, 5 (7) - (2024)
International Journal of Adhesion and Adhesives, 134 - (2024)
Frontiers in Bioengineering and Biotechnology, 12 - (2023)
Journal of Prosthetic Dentistry - (2023)
Antibiotics, 12 (9) - (2023)
Bioengineering, 10 (6) - (2022)
Saudi Dental Journal, 34 (2), 142-149 - (2022)
Dental Materials, 38 (11), 1763-1776 - (2022)
Journal of Adhesive Dentistry, 24 (1), 291-300 - (2022)
Dental Materials, 38 (6), 946-959 - (2022)
Microscopy Research and Technique, 85 (3), 1016-1027 - (2022)
Clinical and Experimental Dental Research, 8 (1), 380-394 - (2022)
Dental Materials, 38 (12), 1855-1865 - (2022)
Dental Materials Journal, 41 (1), 126-133 - (2022)
Japanese Dental Science Review, 58, 59-66 - (2021)
The Chinese journal of dental research : the official journal of the Scientific Section of the Chinese Stomatological Association (CSA), 24 (3), 159-166 - (2021)
The journal of adhesive dentistry, 23 (4), 357-365 - (2021)
Polymers, 13 (7) - (2021)
Journal of Dentistry, 107 - (2021)
Dental Materials Journal, 40 (2), 538-546 - (2020)
Microprocessors and Microsystems, 74 - (2020)
Journal of Prosthodontics, 29 (8), 699-706 - (2020)
International Journal of Adhesion and Adhesives, 102 - (2020)
Journal of Applied Oral Science, 28, 1-11 - (2020)
Journal of Adhesive Dentistry, 22 (3), 311-320 - (2020)
Clinical and Experimental Dental Research, 6 (6), 700-716 - (2020)
European Journal of Oral Sciences, 128 (3), 246-254 - (2019)
Journal of the Mechanical Behavior of Biomedical Materials, 90, 374-380 - (2019)
Journal of Applied Oral Science, 27 - (2019)
Journal of the Mechanical Behavior of Biomedical Materials, 94, 238-248 - (2019)
Clinical Oral Investigations, 23 (6), 2629-2635 - (2019)
Journal of Adhesive Dentistry, 21 (1), 59-66 - (2019)
BIODEVICES 2019 - 12th International Conference on Biomedical Electronics and Devices, Proceedings; Part of 12th International Joint Conference on Biomedical Engineering Systems and Technologies, BIOSTEC 2019, 291-296 - (2019)
Dental Materials, 35 (11), e286-e297 - (2019)
Dental Materials Journal, 38 (3), 361-367 - (2019)
Journal of Prosthodontics, 28 (3), 288-298 - (2019)
Journal of Oral Biosciences, 61 (1), 37-42 - (2019)
Dental Materials, 35 (4), 606-616 - (2019)
Journal of Esthetic and Restorative Dentistry, 31 (5), 423-430 - (2019)
Journal of Dental Research, 98 (3), 347-354 - (2019)
International Journal of Molecular Sciences, 20 (21) - (2019)
Operative Dentistry, 44 (5), 469-475 - (2018)
International Journal of Adhesion and Adhesives, 84, 178-183 - (2018)
Dental Materials, 34 (6), 868-878 - (2018)
Operative Dentistry, 43 (5), 549-558 - (2018)
International Journal of Adhesion and Adhesives, 82, 60-66 - (2018)
Journal of Prosthodontics, 27 (2), 145-152 - (2018)
2018 International Conference on Biomedical Engineering Applications, ICBEA 2018 - Proceedings - (2017)
Dental Clinics of North America, 61 (4), 821-834 - (2017)
Dental Materials, 33 (8), 895-903 - (2017)
Dental Materials, 33 (10), 1093-1102 - (2017)
Journal of Adhesive Dentistry, 19 (5), 401-408 - (2017)
European Journal of Oral Sciences, 125 (6), 471-478 - (2017)
Journal of Applied Oral Science, 25 (6), 700-707 - (2016)
Current Oral Health Reports, 3 (3), 229-233 - (2016)
Dental Materials Journal, 35 (3), 386-391 - (2016)
International Journal of Adhesion and Adhesives, 69, 110-114 - (2016)
International Journal of Adhesion and Adhesives, 71, 81-86 - (2016)
Advanced Functional Materials, 26 (17), 2875-2881 - (2016)
Journal of Dentistry, 47, 63-70 - (2015)
Journal of Prosthodontics, 24 (5), 381-386 - Bonding durability of silorane and methacrylate-based resins to enamel (2015)
Minerva Stomatologica, 64 (3), 135-142 - (2015)
Dental Materials, 31 (2), e25-e32 - (2015)
International Journal of Oral and Maxillofacial Implants, 30 (2), 321-329 - (2015)
Operative Dentistry, 40 (6), E222-E229 - (2015)
Dental Materials, 31 (9), 1132-1141 - (2014)
Dental Materials, 30 (7), 735-741 - (2014)
Journal of Applied Oral Science, 22 (4), 287-293 - (2013)
European Journal of Dentistry, 7 (4), 492-496 - (2013)
Journal of Adhesive Dentistry, 15 (6), 535-540 - (2013)
Dental Materials Journal, 32 (1), 32-41 - (2013)
Journal of Prosthetic Dentistry, 110 (1), 56-60 - Microtensile bond strengths for six 2-step and two 1-step self-etch adhesive systems to enamel and dentin (2013)
American Journal of Dentistry, 26 (1), 44-50 - (2013)
Dental Materials, 29 (1), 116-135 - (2013)
Dental Materials, 29 (10), 999-1011 - (2013)
Journal of Dentistry, 41 (1), 51-59 - (2013)
Acta Biomaterialia, 9 (12), 9522-9528 - (2012)
Journal of Prosthodontics, 21 (8), 596-603 - (2012)
Dental Materials, 28 (1), 72-86 - (2012)
Dental Materials, 28 (5), 495-501 - (2012)
Journal of Applied Oral Science, 20 (5), 556-562 - (2012)
Operative Dentistry, 37 (4), 356-362 - (2011)
Dental Clinics of North America, 55 (2), 311-332 - (2011)
Operative Dentistry, 36 (1), 2-11 - (2011)
International Journal of Dentistry - (2011)
Dental Materials, 27 (1), 1-16 - (2011)
Journal of Dentistry, 39 (1), 57-64 - A 24-month randomized clinical trial of a two- And three-step etch-and-rinse technique (2010)
American Journal of Dentistry, 23 (4), 231-236 - (2010)
Operative Dentistry, 35 (3), 265-272 - (2010)
Dental Materials, 26 (8), 771-778 - (2010)
Journal of Esthetic and Restorative Dentistry, 22 (4), 269 - (2010)
Journal of Contemporary Dental Practice, 11 (3), 25-32 - (2010)
Dental Materials, 26 (7), 710-718 - (2010)
Operative Dentistry, 35 (4), 428-435 - (2010)
Operative Dentistry, 35 (6), 610-617 - Effect of oxalate desensitizers and dentin moisture during total-etch bonding (2010)
American Journal of Dentistry, 23 (3), 137-141 - (2010)
Journal of Prosthetic Dentistry, 103 (6), 380-383 - (2010)
Journal of Adhesive Dentistry, 12 (4), 311-317 - (2010)
Dental Materials, 26 (8), 779-785 - (2010)
Dental Materials, 26 (11), 1059-1067 - Cytotoxicity of resin-based light-cured liners (2009)
American Journal of Dentistry, 22 (3), 137-142 - (2009)
Journal of Applied Oral Science, 17 (3), 184-189 - (2009)
Journal of Biomedical Materials Research - Part B Applied Biomaterials, 88 (2), 482-491 - (2009)
Journal of Dentistry, 37 (4), 315-320 - (2009)
Dental Materials, 25 (3), 283-289 - (2009)
Dental Materials, 25 (6), 744-749 - (2009)
Journal of Biomedical Materials Research - Part B Applied Biomaterials, 88 (2), 312-320 - (2009)
Dental Materials, 25 (7), 868-876 - (2009)
Journal of Dentistry, 37 (12), 932-936 - (2008)
Journal of Applied Oral Science, 16 (1), 64-69 - (2008)
Dental Materials, 24 (2), 288 - (2008)
Dental Materials, 24 (4), 483-491 - (2008)
Dental Materials, 24 (4), 476-482 - (2007)
Dental Clinics of North America, 51 (2), 453-471 - (2007)
Journal of Dental Research, 86 (1), 90-94 - (2007)
Journal of Esthetic and Restorative Dentistry, 19 (6), 354 - (2007)
European Journal of Oral Sciences, 115 (4), 321-329 - (2007)
Dental Materials, 23 (6), 705-713 - (2007)
Journal of Adhesive Dentistry, 9 (6), 505-512 - From dry bonding to water-wet bonding to ethanol-wet bonding. A review of the interactions between dentin matrix and solvated resins using a macromodel of the hybrid layer (2007)
American Journal of Dentistry, 20 (1), 7-20 - (2007)
Journal of Dental Research, 86 (6), 529-533 - Influence of light-curing sources on polymerization reaction kinetics of a restorative system (2007)
American Journal of Dentistry, 20 (1), 46-52 - One-year comparison of metallic and translucent matrices in Class II composite resin restorations (2007)
American Journal of Dentistry, 20 (1), 41-45 - A new technique for assessing hybrid layer interfacial micromorphology and integrity: Two-photon laser microscopy (2006)
Journal of Adhesive Dentistry, 8 (5), 279-284 - (2006)
European Journal of Oral Sciences, 114 (2), 160-166 - (2006)
Dental Materials, 22 (4), 314-324 - Bond strength of resin-based restorations polymerized with different light-curing sources (2006)
Journal of Adhesive Dentistry, 8 (5), 293-298 - (2006)
Journal of Applied Oral Science, 14 (6), 399-404 - (2006)
Journal of Endodontics, 32 (6), 537-540 - (2006)
Biomaterials, 27 (9), 1695-1703 - (2006)
Journal of Dental Research, 85 (3), 282-286 - In vivo and in vitro evaluation of class II composite resin restorations with different matrix systems (2006)
Journal of Adhesive Dentistry, 8 (2), 127-132 - (2006)
Dental Materials, 22 (10), 963-972 - (2006)
Dental Materials, 22 (10), 973-980 - (2005)
Biomaterials, 26 (9), 1035-1042 - (2005)
Journal of Esthetic and Restorative Dentistry, 17 (2), 129 - (2005)
Journal of Esthetic and Restorative Dentistry, 17 (3), 191 - (2005)
Journal of Dentistry, 33 (7), 603-610 - Durability of resin-dentin bonds related to water and oil storage (2005)
American Journal of Dentistry, 18 (6), 315-319 - Effect of peroxide-based bleaching agents on enamel ultimate tensile strength (2005)
Operative Dentistry, 30 (3), 318-324 - (2005)
Biomaterials, 26 (33), 6449-6459 - (2005)
Journal of Dentistry, 33 (5), 371-377 - (2005)
Journal of Dental Research, 84 (8), 730-735 - (2005)
Pesquisa odontológica brasileira = Brazilian oral research, 19 (1), 23-29 - Liner and light exposure: Effect on In-Vitro Class V Microleakage (2005)
Operative Dentistry, 30 (3), 325-330 - (2005)
Dental Materials, 21 (3), 232-241 - (2005)
Journal of Dentistry, 33 (4), 349-354 - Pit and fissure sealing. Bonding of bulk-cured, low-filled, light-curing resins to bacteria-contaminated uncut enamel in high c-factor cavities (2005)
American Journal of Dentistry, 18 (1), 28-36 - (2005)
Biomaterials, 26 (34), 6863-6872 - (2005)
Journal of Biomedical Materials Research - Part B Applied Biomaterials, 72 (1), 109-116 - (2004)
Journal of Dentistry, 32 (1), 55-65 - Aggressiveness of self-etch adhesives on unground enamel (2004)
Operative Dentistry, 29 (3), 309-316 - (2004)
Journal of Dental Research, 83 (3), 216-221 - (2004)
Dental Materials, 20 (7), 669-676 - (2004)
Dental Materials, 20 (8), 733-739 - (2004)
Pesquisa odontológica brasileira = Brazilian oral research, 18 (3), 260-265 - (2004)
Biomaterials, 25 (26), 5789-5796 - Effects of pre- and post-bonding hydration on bond strength to dentin (2004)
Journal of Adhesive Dentistry, 6 (1), 13-17 - Effects of storage media on mechanical properties of adhesive systems (2004)
American Journal of Dentistry, 17 (2), 104-108 - (2004)
Journal of Dentistry, 32 (7), 521-530 - (2004)
Journal of Dentistry, 32 (8), 611-621 - Single-step, self-etch adhesives behave as permeable membranes after polymerization. Part I. Bond strength and morphologic evidence (2004)
American Journal of Dentistry, 17 (4), 271-278 - (2004)
Dental Materials, 20 (6), 522-529 - (2004)
Dental Materials, 20 (4), 322-329 - (2004)
Journal of Biomedical Materials Research - Part B Applied Biomaterials, 71 (1), 90-98 - (2003)
Dental Materials, 19 (5), 399-405 - (2003)
Journal of Biomedical Materials Research - Part A, 67 (3), 900-907 - (2003)
Dental Materials Journal, 22 (1), 39-47 - (2003)
Dental Materials, 19 (4), 308-312 - (2003)
Journal of Dental Research, 82 (8), 597-601 - (2003)
Dental Materials, 19 (5), 347-352 - (2003)
Journal of Dental Research, 82 (9), 703-707 - (2003)
Journal of Biomedical Materials Research - Part A, 66 (4), 850-853 - Microtensile bond strength of several adhesive systems to different dentin depths (2003)
American Journal of Dentistry, 16 (5), 292-298 - (2003)
Journal of Dentistry, 31 (7), 469-477 - Moisture Spectrum of Demineralized Dentin for Adhesive Systems with Different Solvent Bases (2003)
Journal of Adhesive Dentistry, 5 (3), 183-192 - Sealing properties of a self-etching primer system to normal caries-affected and caries-infected dentin. (2003)
American journal of dentistry, 16 Spec No - (2003)
Dental Materials, 19 (8), 700-706 - (2002)
Journal of Dental Research, 81 (8), 556-560 - (2002)
Journal of Dental Research, 81 (7), 477-481 - (2002)
Journal of Dentistry, 30 (7-8), 371-382 - Solvation of dried dentin matrix by water and other polar solvents (2002)
American Journal of Dentistry, 15 (2), 97-102 - (2002)
Dental clinics of North America, 46 (2) - (2001)
Journal of Dental Research, 80 (10), 1919-1924 - 3.0.CO;2-A" target="_blank">Solvent-induced dimensional changes in EDTA-demineralized dentin matrix (2001)
Journal of Biomedical Materials Research, 56 (2), 273-281 - Tensile strength of human dentin as a function of tubule orientation and density (2001)
Journal of Adhesive Dentistry, 3 (4), 309-314 - The influence of tubule density and area of solid dentin on bond strength of two adhesive systems to dentin (2001)
Journal of Adhesive Dentistry, 3 (4), 315-324 - The use of oxalate to reduce dentin permeability under adhesive restorations (2001)
American Journal of Dentistry, 14 (2), 89-94 - An ultrastructural study of the influence of acidity of self-etching primers and smear layer thickness on bonding to intact dentin (2000)
Journal of Adhesive Dentistry, 2 (2), 83-98 - Effect of smear layers on the bonding of a self-etching primer to dentin (2000)
Journal of Adhesive Dentistry, 2 (2), 99-116 - Effects of prism orientation on tensile strength of enamel (2000)
Journal of Adhesive Dentistry, 2 (4), 251-257 - (2000)
Journal of Dental Research, 79 (8), 1579-1583 - Long-term mechanical properties of EDTA-demineralized dentin matrix (2000)
Journal of Adhesive Dentistry, 2 (3), 193-199 - Mechanical Disruption of Dentin Collagen Fibrils during Resin-Dentin Bond Testing (2000)
Journal of Adhesive Dentistry, 2 (3), 175-192 - (2000)
Dental Materials, 16 (1), 7-14 - Durability of resin-dentin bonds (1999)
Journal of Adhesive Dentistry, 1 (3), 211-218 - (1999)
Journal of Dental Research, 78 (2), 699-705 - The microtensile bond test: A review (1999)
Journal of Adhesive Dentistry, 1 (4), 299-309 - (1998)
Dental Materials, 14 (3), 222-228 - Fracture strength of weakened human premolars restored with amalgam with and without cusp coverage (1998)
American Journal of Dentistry, 11 (4), 181-184 - (1997)
Journal of Dentistry, 25 (5), 355-372 - Regional measurement of resin-dentin bonding as an array (1997)
American Chemical Society, Polymer Preprints, Division of Polymer Chemistry, 38 (2), 135-136 - A review of polymerization contraction: The influence of stress development versus stress relief (1996)
Operative Dentistry, 21 (1), 17-24 - Clinical evaluation of gallium alloy as a posterior restorative material (1996)
Quintessence International, 27 (5), 315-320 - (1996)
Archives of Oral Biology, 41 (4), 379-386 - (1996)
Archives of Oral Biology, 41 (4), 369-377 - (1996)
Journal of Dentistry, 24 (6), 435-442 - (1996)
Journal of Dental Research, 75 (6), 1404-1413 - (1996)
Journal of Dental Research, 75 (11), 1851-1858 - (1995)
Dental Materials, 11 (2), 117-125 - An alternative technique for recontouring cervical eroded and abraded areas: A case report (1995)
Quintessence International, 26 (3), 169-174 - (1995)
Archives of Oral Biology, 40 (12), 1109-1118 - Bonding mechanism of VariGlass to dentin. (1995)
American journal of dentistry, 8 (5), 253-258 - Comparative SEM and TEM observations of nanoleakage within the hybrid layer. (1995)
Operative dentistry, 20 (4), 160-167 - Interfacial morphology and strength of bonds made to superficial versus deep dentin. (1995)
American journal of dentistry, 8 (6), 297-302 - Strength of base materials. (1995)
American journal of dentistry, 8 (3), 128-130 - Glass ionomer cement surface protection. (1994)
American journal of dentistry, 7 (4), 203-206 - (1994)
Dental Materials, 10 (4), 236-240
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