Preparation Of Tricalcium Phosphate/calcium Pyrophosphate Structures Via Rapid Prototyping

摘要

Custom made tricalcium phosphate/calcium pyrophosphate bone substitutes with a well-defined architecture were fabricated in this study using 3D powder printing with tricalcium phosphate (TCP) powder and a liquid phase of phosphoric acid. The primary formed matrix of dicalcium phosphate dihydrate (DCPD, brushite) was converted in a second step to calcium pyrophosphate (CPP) by heat treatment in the temperature range 1,100-1,300℃. The structures exhibited compressive strengths between 0.8 MPa and 4 MPa after sintering at 1,100-1,250℃, higher strengths were obtained by increasing the amount of pyrophosphate formed in the matrix due to a post-hardening regime prior sintering as well as by the formation of a glass phase from TCP and calcium pyrophosphate above 1,280℃, which resulted in a strong densification of the samples and compressive strength of >40 MPa.