Hereditary multiple exostoses(HME)is an autosomal dominant bone disorder characterized by abnormal bone development.HME mostly involves the forearm,resulting in forearm deformities,limited functional activities,etc.Cu...Hereditary multiple exostoses(HME)is an autosomal dominant bone disorder characterized by abnormal bone development.HME mostly involves the forearm,resulting in forearm deformities,limited functional activities,etc.Currently,there are multiple surgical methods including tumor resection with or without ulnar osteotomy and lengthening,simple radial head resection and distal radial hemiepiphysiodesis,but the optimal treatment remains controversial.Ulnar lengthening serves as an effective surgical intervention for forearm deformities in HME patients.This review examines its surgical techniques,complications,and timing of the operation to guide clinical decision-making for improving function and cosmetic outcomes.展开更多
An A1/Pb-0.3%Ag alloy composite anode was produced via composite casting. Its electrocatalytic activity for the oxygen evolution reaction and corrosion resistance was evaluated by anodic polarization curves and accele...An A1/Pb-0.3%Ag alloy composite anode was produced via composite casting. Its electrocatalytic activity for the oxygen evolution reaction and corrosion resistance was evaluated by anodic polarization curves and accelerated corro- sion test, respectively. The microscopic morphologies of the anode section and anodic oxidation layer during accelerated corrosion test were obtained by scanning electron microscopy. It is found that the composite anode (hard anodizing) dis- plays a more compact interracial combination and a better adhesive strength than plating tin. Compared with industrial Pb-0.3%Ag anodes, the oxygen evolution overpotentials of A1/Pb-0.3%Ag alloy (hard anodizing) and A1/Pb-0.3%Ag alloy (plating tin) at 500 A.m-2 were lower by 57 and 14 mV, respectively. Furthermore, the corrosion rates of Pb-0.3%Ag alloy, A1/Pb-0.3%Ag alloy (hard anodizing), and A1/Pb-0.3%Ag alloy (plating tin) were 13.977, 9.487, and 11.824 g.m-2.h-1, respectively, in accelerated corrosion test for 8 h at 2000 A-m-2. The anodic oxidation layer of A1/Pb-0.3%Ag alloy (hard anodizing) is more compact than Pb-0.3%Ag alloy and A1/Pb-0.3%Ag alloy (plating tin) after the test.展开更多
文摘Hereditary multiple exostoses(HME)is an autosomal dominant bone disorder characterized by abnormal bone development.HME mostly involves the forearm,resulting in forearm deformities,limited functional activities,etc.Currently,there are multiple surgical methods including tumor resection with or without ulnar osteotomy and lengthening,simple radial head resection and distal radial hemiepiphysiodesis,but the optimal treatment remains controversial.Ulnar lengthening serves as an effective surgical intervention for forearm deformities in HME patients.This review examines its surgical techniques,complications,and timing of the operation to guide clinical decision-making for improving function and cosmetic outcomes.
基金financially supported by the National Natural Science Foundation of China(No.51004056)the Opening Foundation of the Key Laboratory of Inorganic Coating Materials,Chinese Academy of Sciences(No.KKZ6201152009)+2 种基金the Specialized Research Fund for the Doctoral Program of Higher Education(No.20125314110011)the Applied Basic Research Foundation of Yunnan Province,China(No.2010ZC052)the Analysis and Testing Foundation of Kunming University of Science and Technology(Nos.2010203 and 2011173)
文摘An A1/Pb-0.3%Ag alloy composite anode was produced via composite casting. Its electrocatalytic activity for the oxygen evolution reaction and corrosion resistance was evaluated by anodic polarization curves and accelerated corro- sion test, respectively. The microscopic morphologies of the anode section and anodic oxidation layer during accelerated corrosion test were obtained by scanning electron microscopy. It is found that the composite anode (hard anodizing) dis- plays a more compact interracial combination and a better adhesive strength than plating tin. Compared with industrial Pb-0.3%Ag anodes, the oxygen evolution overpotentials of A1/Pb-0.3%Ag alloy (hard anodizing) and A1/Pb-0.3%Ag alloy (plating tin) at 500 A.m-2 were lower by 57 and 14 mV, respectively. Furthermore, the corrosion rates of Pb-0.3%Ag alloy, A1/Pb-0.3%Ag alloy (hard anodizing), and A1/Pb-0.3%Ag alloy (plating tin) were 13.977, 9.487, and 11.824 g.m-2.h-1, respectively, in accelerated corrosion test for 8 h at 2000 A-m-2. The anodic oxidation layer of A1/Pb-0.3%Ag alloy (hard anodizing) is more compact than Pb-0.3%Ag alloy and A1/Pb-0.3%Ag alloy (plating tin) after the test.
