[1] S DOPPALAPUDI, A JAIN, W KHAN. Biodegradable polymers— an overview.. Polym. Adv. Technol, 25, 427-435(2014).

[2] A DION, G HALL, M LANGMAN. Vancomycin release behaviour from amorphous calcium polyphosphate matrices intended for osteomyelitis treatment. Biomaterials, 26, 72-76(2005).

[3] Y HU, M PILLIAR R, Y SHANJANI. Mechanical characteristics of solid-freeform-fabricated porous calcium polyphosphate structures with oriented stacked layers. Acta Biomaterialia, 7, 1788-1796(2011).

[4] V BOWEN C, M BRAY J, J FILIAGGI M. Degradation and drug release in calcium polyphosphate bioceramics: an MRI-based characterization. Acta Biomaterialia, 8, 3821-3831(2012).

[5] D GRYNPAS M, A KANDEL R, M PILLIAR R. Porous calcium polyphosphate as load-bearing bone substitutes: in vivo study. J. Biomed. Mater. Res. B Appl Biomater., 101B, 1-8(2013).

[6] G LI D, Q SU Z, B ZHANG Z. Research on the synthesis and controued degradation of CS／CPP composite for bone repair. Beijing Biomedical Engineering, 26, 144-148(2007).

[7] W CHEN X, L HUANG Y, L SHI Z. Study on mechanical and degradation properties of CPP fibers. Journal of Lanzhou Railway Institute, 1999, 62-66.

[8] H QIANG X, L SHI Z, Y ZHUANG. Study on resorbable composite of unidirectional fiber CPP/PLLA for bone fracture fixation.. Journal of Mechanical Engineering, 40, 53-57(2004).

[9] H QIANG X, P WANG Y. Degradation of nano-hydroxyapatite/ calcium polyphosphate fiber/polylactide composite. Journal of Clinial Rehabilitative Tissue Engineering Research, 12, 5275-5278(2008).

[10] P AI Y, J LIU L. Fully degradable calcium polyphosphate fiber reinforced unsaturated polyester urea resin used as bone fixed composites. Polymer Materials Science & Engineering, 29, 109-112, 117(2013).

[11] X CHEN, K QIU, X WANG C. Evaluation of the mechanic properties of the strontium-doped calcium polyphosphate. Chinese Journal of Dental Meterials and Devices, 14, 61-63(2005).

[12] A ABOU NEEL E, I AHMED, J BLAKER J. Effect of iron on the surface, degradation and ion release properties of phosphate- based glass fibres. Acta Biomaterialia, 1, 553-563(2005).

[13] J MASSERA, F SABATIER, Y SHPOTYUK. Processing and characterization of novel borophosphate glasses and fibers for medical applications. J. Non-Cryst. Solids, 425, 52-60(2015).

[14] H GE M, R LI M, W LIU. Studies on synthesis and formation of borophosphates under room temperature and ambient pressure. Chinese Journal of Inorganic Chemistry, 21, 826-829(2005).

[15] E DAY D, W LIANG, N RAHAMAN M. Bioactive borate glass scaffold for bone tissue engineering.. J. Non-Cryst. Solids, 354, 1690-1696(2008).

[16] Y QI Y, D RUAN, J ZHANG J. Influence of different oxide on structure and performance of phosphate glass. Glass, 41, 40-46(2014).

[17] B BERNO, A DION, G HALL. The effect of processing on the structural characteristics of vancomycin-loaded amorphous calcium phosphate matrices.. Biomaterials, 26, 4486-4494(2005).

[18] S ANANTHA P, K HARIHARAN. Structure and ionic transport studies of sodium borophosphate glassy system. Mater. Chem. Phys., 89, 428-437(2005).

[19] Q ZU. Research on high performance glass fibers. Fiber Glass, 2012, 16-23.

[20] S BELKHIRIA M, J VIDEAU J, H YOUSSEF N. Investigation of the physico-chemical properties of calcium borophosphate glasses. effect of the substitution of sodium for calcium.. Mater. Lett., 44, 269-274(2000).

[21] P JIA E, W SONG, T XU Y. Effects of doping alkaline metal proportion on degradation and mineral precipitation of calcium polyphosphate. Journal of Sichuan University, 41, 124-129(2009).