Viscoelastic behavior of commercially available tissue conditioners under compression

Three commercially available tissue conditioners —Tissue conditioner II (STII), Tissue conditioner (GTC), and Tissue Care (TTC)— were tested using a rheometer to evaluate their viscoelasticity under compression at a constant distortion (10%). Immediately after fabrication, STII showed the highest ha...

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Published inDental Materials Journal Vol. 29; no. 4; pp. 461 - 468
Main Authors SAITOH, Setsuo, SASAKI, Kaori, NEZU, Takashi, TAIRA, Masayuki
Format Journal Article
LanguageEnglish
Japanese
Published Japan The Japanese Society for Dental Materials and Devices 2010
Japanese Society for Dental Materials and Devices
Subjects
Biocompatible Materials - chemistry
Dental Impression Materials - chemistry
Dental Materials - chemistry
Dentistry
Elastic Modulus
Elasticity
Hardness
Humans
Immersion
Materials Testing
Methacrylates - chemistry
Methylmethacrylates - chemistry
Microscopy, Electron, Scanning
Plasticizers - chemistry
Pressure
Rheology
Rheometer
Stress, Mechanical
Surface Properties
Time Factors
Tissue conditioner
Tissue Conditioning (Dental)
Viscoelasticity
Viscosity
Water - chemistry
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Abstract Three commercially available tissue conditioners —Tissue conditioner II (STII), Tissue conditioner (GTC), and Tissue Care (TTC)— were tested using a rheometer to evaluate their viscoelasticity under compression at a constant distortion (10%). Immediately after fabrication, STII showed the highest hardness and compressive modulus of elasticity, followed by TTC and GTC. TTC showed the highest relaxation rate, followed by GTC and STII. STII and GTC showed equivalent relaxation times, while TTC showed the shortest relaxation time. The modulus of viscosity was highest in STII, followed by GTC and TTC. The immersion of each sample in water resulted in increases in hardness, compressive modulus of elasticity, relaxation time, and modulus of viscosity and decreases in relaxation rates. The three products have different viscoelastic properties. Further, the results indicate that STII and GTC exhibit better performance when used as functional impression materials, while TTC exhibits better performance when used as a tissue conditioner.
AbstractList Three commercially available tissue conditioners —Tissue conditioner II (STII), Tissue conditioner (GTC), and Tissue Care (TTC)— were tested using a rheometer to evaluate their viscoelasticity under compression at a constant distortion (10%). Immediately after fabrication, STII showed the highest hardness and compressive modulus of elasticity, followed by TTC and GTC. TTC showed the highest relaxation rate, followed by GTC and STII. STII and GTC showed equivalent relaxation times, while TTC showed the shortest relaxation time. The modulus of viscosity was highest in STII, followed by GTC and TTC. The immersion of each sample in water resulted in increases in hardness, compressive modulus of elasticity, relaxation time, and modulus of viscosity and decreases in relaxation rates. The three products have different viscoelastic properties. Further, the results indicate that STII and GTC exhibit better performance when used as functional impression materials, while TTC exhibits better performance when used as a tissue conditioner.
Author NEZU, Takashi
SASAKI, Kaori
SAITOH, Setsuo
TAIRA, Masayuki
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Cites_doi 10.1016/S0022-3913(05)80077-0
10.1016/0022-3913(78)90165-8
10.2186/jjps.45.504
10.1046/j.1365-2842.2001.00736.x
10.1177/00220345790580080601
10.1016/j.jdent.2005.07.005
10.1016/S0022-3913(98)70060-5
10.2186/jjps.36.488
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References 4) Wagner WC, Kawano F, Dootz ER, Koran III A. Dynamic viscoelastic properties of processed soft denture liners: Part 1-Initial properties. J Prosthet Dent 1995; 73: 471-477.
15) Kano S, Morohoshi K, Oda K, Kondo M. Deformation and strength properties of geosynthetics applied at coastal confined waste disposal site. Technical Note of NILIM 2003; 124: 1-23.
6) Murata H, Narasaki Y, Hamada T, McCabe JF. An alcohol-free tissue conditioner—A laboratory evaluation. J Dent 2006; 34: 307-315.
12) Katakura N, Kawakami M, Iwata H, Kimura A, Hasegawa A. Composition and dynamic viscoelastic properties of tissue conditioners. J J Dent Mater 1988; 7: 111-116.
13) McCarthy JA, Moser JB. Mechanical properties of tissue conditioners. Part 1: Theoretical considerations, behavioral characteristics, and tensile properties. J Prosthet Dent 1978; 40: 89-97.
10) Kawaguchi M, Okamoto Y, Fukushima T, Miyazaki K. Factors affecting the leaching of phthalate esters of the experimental tissue conditioner. J J Dent Mater 2004; 23: 273-278.
2) Duran RL, Powers JM, Craig RG. Viscoelastic and dynamic properties of soft liners and tissue conditioners. J Dent Res 1979; 58: 1801-1807.
7) Hamada T. Tissue conditioner, 1st ed. Tokyo: Dental Diamond Co; 2007. p. 62-71.
14) Murata H, Kawamura M, Hamada T, Saleh S, Kresnoadi U, Toki K. Dimensional stability and weight changes of tissue conditioners. J Oral Rehabil 2001; 28: 918-923.
9) Kawaguchi M, Takahashi Y, Hashimoto Y, Miyazaki K, Habu T, Nakamura M. Leaching of plasticizers from tissue conditioners. J Jpn Prosthodont Soc 2001; 45: 504-511.
3) Murata H, Rosalina CH, Hamada T, Taguchi N. Setting and stress relaxation behavior of resilient denture liner. J Prosthet Dent 1998; 80: 714-722.
11) Katakura N, Kawakami M. Dynamic viscoelastic properties of proprietary tissue conditioners. J J Dent Mater 1987; 6: 905-910.
1) Miyazaki T, Nakajima H, Kawai T, Oda Y. Clinical dental materials, 1st ed. Tokyo: Ishiyaku Publishers; 2006. p. 260-261.
8) Kanie T, Terao R, Arikawa H, Kadokawa A, Hamano T, Fujii K, Inoue K. Deterioration of the soft lining materials with the denture cleansers. J Jpn Prosthodont Soc 1992; 36: 488-495.
5) Nakae T. Rheological engineering and its applied technology, 1st ed. Tokyo: Fuji Techno System; 2001. p. 47-52.
11
12
13
14
15
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2
3
4
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KANIE TAKAHITO (8) 1992; 36
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KAWAGUCHI MINORU (9) 2001; 45
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Snippet Three commercially available tissue conditioners —Tissue conditioner II (STII), Tissue conditioner (GTC), and Tissue Care (TTC)— were tested using a rheometer...
Three commercially available tissue conditioners-Tissue conditioner II (STII), Tissue conditioner (GTC), and Tissue Care (TTC)-were tested using a rheometer to...
Three commercially available tissue conditioners -Tissue conditioner II (STII), Tissue conditioner (GTC), and Tissue Care (TTC)- were tested using a rheometer...
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SubjectTerms Biocompatible Materials - chemistry
Dental Impression Materials - chemistry
Dental Materials - chemistry
Dentistry
Elastic Modulus
Elasticity
Hardness
Humans
Immersion
Materials Testing
Methacrylates - chemistry
Methylmethacrylates - chemistry
Microscopy, Electron, Scanning
Plasticizers - chemistry
Pressure
Rheology
Rheometer
Stress, Mechanical
Surface Properties
Time Factors
Tissue conditioner
Tissue Conditioning (Dental)
Viscoelasticity
Viscosity
Water - chemistry
Title Viscoelastic behavior of commercially available tissue conditioners under compression
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