Characterization and Mechanical Properties of Calcium Silicate/Citric Acid-Based Polymer Composite Materials

被引:14
作者
Shirazi, Farid Seyed [1 ,2 ]
Mehrali, Mehdi [1 ,2 ,3 ]
Oshkour, Azim Ataollahi [1 ,2 ]
Metselaar, Hendrik Simon Cornelis [1 ,2 ]
Kadri, Nahrizul Adib [3 ]
Abu Osman, Noor Azuan [3 ]
机构
[1] Univ Malaya, Dept Mech Engn, Kuala Lumpur 50603, Malaysia
[2] Univ Malaya, Adv Mat Res Ctr, Kuala Lumpur 50603, Malaysia
[3] Univ Malaya, Dept Biomed Engn, Fac Engn, Kuala Lumpur 50603, Malaysia
来源
INTERNATIONAL JOURNAL OF APPLIED CERAMIC TECHNOLOGY | 2015年 / 12卷 / 02期
关键词
IN-VITRO; BIODEGRADABLE ELASTOMERS; HYDROXYAPATITE; BONE; NANOCOMPOSITES; DEGRADATION; SCAFFOLDS; BEHAVIOR; POWDERS;
D O I
10.1111/ijac.12151
中图分类号
TQ174 [陶瓷工业]; TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
Optimal implants for bone tissue engineering require sufficient mechanical strength as well as apt bioactivity and biodegradability. Calcium silicate (CaSiO3 - CS) ceramics have been studied for tissue engineering and implantation for their good bioactivity properties. Elastomer poly (1.8-octanediol citrate) (POC), one of the most biocompatible polymer, is used for biomedical application. The objective of this study is to fabricate a novel composite of calcium silicate with different ratios of POC to enhance the mechanical properties. The results showed that the compressive and the bending strengths of calcium silicate/POC biocomposite were improved remarkably at 40 wt% POC.
引用
收藏
页码:371 / 376
页数:6
相关论文
共 23 条
[1]   Mechanical and microstructure of reinforced hydroxyapatite/calcium silicate nano-composites materials [J].
Beheri, Hanan H. ;
Mohamed, Khaled R. ;
El-Bassyouni, Gehan T. .
MATERIALS & DESIGN, 2013, 44 :461-468
[2]   The role of hydroxyapatite in citric acid-based nanocomposites: Surface characteristics, degradation, and osteogenicity in vitro [J].
Chung, Eun Ji ;
Sugimoto, Matthew J. ;
Ameer, Guillermo A. .
ACTA BIOMATERIALIA, 2011, 7 (11) :4057-4063
[3]   Synthesis of novel lidocaine-releasing poly(diol-co-citrate) elastomers by using deep eutectic solvents [J].
Concepcion Serrano, M. ;
Gutierrez, Maria C. ;
Jimenez, Ricardo ;
Luisa Ferrer, M. ;
del Monte, Francisco .
CHEMICAL COMMUNICATIONS, 2012, 48 (04) :579-581
[4]   MECHANICAL-PROPERTIES OF BIODEGRADABLE POLYMERS AND COMPOSITES PROPOSED FOR INTERNAL-FIXATION OF BONE [J].
DANIELS, AU ;
CHANG, MKO ;
ANDRIANO, KP ;
HELLER, J .
JOURNAL OF APPLIED BIOMATERIALS, 1990, 1 (01) :57-78
[5]   Development of biodegradable crosslinked urethane-doped polyester elastomers [J].
Dey, Jagannath ;
Xu, Hao ;
Shen, Jinhui ;
Thevenot, Paul ;
Gondi, Sudershan R. ;
Nguyen, Kytai T. ;
Sumerlin, Brent S. ;
Tang, Liping ;
Yang, Jian .
BIOMATERIALS, 2008, 29 (35) :4637-4649
[6]   Mechanical and Bioactive Behavior of Hydroxyapatite-Wollastonite Sintered Composites [J].
Encinas-Romero, Martin A. ;
Aguayo-Salinas, Salvador ;
Valenzuela-Garcia, Jesus L. ;
Payan, Sandra R. ;
Castillon-Barraza, Felipe F. .
INTERNATIONAL JOURNAL OF APPLIED CERAMIC TECHNOLOGY, 2010, 7 (02) :164-177
[7]   A comparison of the influence of material on in vitro cartilage tissue engineering with PCL, PGS, and POC 3D scaffold architecture seeded with chondrocytes [J].
Jeong, Claire G. ;
Hollister, Scott J. .
BIOMATERIALS, 2010, 31 (15) :4304-4312
[8]   A review of the mechanical behavior of CaP and CaP/polymer composites for applications in bone replacement and repair [J].
Johnson, Amy J. Wagoner ;
Herschler, Brad A. .
ACTA BIOMATERIALIA, 2011, 7 (01) :16-30
[9]   Bioactivity and osteoblast responses of novel biomedical nanocomposites of bioactive glass nanofiber filled poly(lactic acid) [J].
Kim, Hae-Won ;
Lee, Hae-Hyoung ;
Chun, Gae-Sig .
JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A, 2008, 85A (03) :651-663
[10]   Bioactive Composites Consisting of PEEK and Calcium Silicate Powders [J].
Kim, Ill Yong ;
Sugino, Atsushi ;
Kikuta, Koichi ;
Ohtsuki, Chikara .
JOURNAL OF BIOMATERIALS APPLICATIONS, 2009, 24 (02) :105-118
123