Adhesion,proliferation and ALP activity of osteoblasts on porous Ti processed by laser solid forming / 实用口腔医学杂志

Objective:To study the biocompatibility of porous Ti processed by laser solid forming(LSF)with osteoblasts.Methods:SD rat osteoblasts were seeded on porous Ti surface processed by LSF.Adhesion,proliferation and ALP activity of the osteoblasts were measured at different time,and all samples were observed under SEM.Dense sand-blasted Ti sheets were used as the controls.All data were statistically analyzed.Results:Adhered cells on porous Ti were more than those on nonporous Ti sheets after 2 and 3 hours of culture(P <0.05).At 4 and 7 days,cell proliferation and ALP activity were significantly higher on porous Ti than those on the controls(P <0.05).Conclusion:Porous Ti processed by LSF possesses good biocompatibility with osteoblasts.

Biological safety of Ni-Cr alloy fabricated by laser solid forming technology / 第三军医大学学报

Objective To evaluate the biological safety of a Ni-62.9Cr-23 alloy fabricated by laser solid forming technology.Methods According to the requirements of national standards GB/T16886-2003,YY/T0279-1995 and YY/T0244-1996,general cytotoxicity,acute systemic toxicity,hemolysis testing,oral mucous membrane irritation testing were used to evaluate the alloy.Results The alloy was indicated having no cytotoxicity and with a hemolytic rate of 0.385%.The oral mucous membrane irritation testing showed that the alloy had no mucous membrane irritation.The acute systemic toxicity test indicated that the alloy had no acute systemic toxicity.Conclusion The Ni-62.9Cr-23 alloy has good biological safety in a certain extent.

Corrosion behavior of Ti-Zr alloy formed by laser solid forming technology / 实用口腔医学杂志

Objective:To evaluate the anti-corrosion property of Ti-Zr alloy fabricated by laser solid forming technic in artificial saliva.Method:The corrosive behavior of Ti-Zr alloy fabricated by laser solid forming was studied by potentiadynamic polarization technique in artificial saliva at 37 ℃(pH=6.8).Ti-Zr alloy formed by casting was applied as the control.With the polarization curves given by the electrochemical corrosive measure system and the picture of corrosive plane given by SEM, the corrosive property of the Ti-Zr alloy were analyzed.Results:Ti-Zr alloy fabricated by laser solid forming showed more relatively positive corrosion potential, smaller corrosion current density and lower passive potential, and did not show any evidence of corrosive phenomena.Conclusion:Ti-Zr alloy fabricated by laser solid forming has good corrosive resistance in oral circumstances.

CAD of palatal metal plate of upper complete denture / 实用口腔医学杂志

Objective: To reconstruct 3D shape of upper edentulous jaw f or the design of a digital model of palatal metal plate of upper complete dentur e. Methods: Standard edentulous jaw models were measured with a numerical controlled miller and a new data collection system by cutting and sca nning layer-by-layer, the 3D shape of the models was reconstructed by image pr ocessing with special software. Based on these data, a palatal metal plate of u pper complete denture was designed by using SURFACER softerware.Results: Data of upper edentulous jaw models and a palatal metal plate of upper c omplete denture were obtained.The error between basal surface of the plate base and uper endentulous jaw was 0.0245 ?0.0267 mm. Conclusion:E dentulous jaw can be reconstructed by three-dimensional measurement, the design ed palatal metal plate of upper complete denture will be helpful to the further Laser Solid Forming.

Study on microstructure and mechanical property of titanium by laser solid forming technology / 实用口腔医学杂志

Objective:To investigate the microstructure and mechanical property of titanium parts made by laser solid forming technology. Methods: Titanium parts were made by laser solid forming technology; microstructure and elements were observed by SEM and spectrum analysis. The mechanical property of laser formed titanium and TA2 titanium were measured by Omnipotent testing machine. Results: The microstructure of titanium parts fabricated by laser rapid forming has columnar crystals with regular and epitaxial growth. The inner structure is dense and acicular structure distributed uniform at all field with width about 3-4 ?m; No obvious impurity elements were observed; the tensile-strength and yield strength of titanium parts is obviously superior to the standard of TA2. Conclusion: The microstructure of titanium parts made by laser solid forming can be obviously improved and mechanics performance was greatly improved. Those titanium parts may be used for dental restoration.