AIM To evaluate the influence of the titanium nitride(TiN) coating on the results of a total knee arthroplasty(TKA). METHODS A total of 910 patients(338 men; 572 woman), with a mean age of 65(range 36-94) undergoing 1...AIM To evaluate the influence of the titanium nitride(TiN) coating on the results of a total knee arthroplasty(TKA). METHODS A total of 910 patients(338 men; 572 woman), with a mean age of 65(range 36-94) undergoing 1031 primary TKAs were assessed. Clinical evaluation and patientreported outcomes were gathered one year after surgery. The questionnaires included the Knee injury and Osteoarthritis Outcome Score(KOOS)-Dutch version, Visual Analogue Scale(VAS) pain scores in rest and during active knee movement, VAS-satisfaction scores, and EQ-5 D-3 L health scores. This was aimed to assess the overall knee function and patient satisfaction, and to enable us to make a gross comparison to other TKAs.RESULTS At a mean follow-up of 46 mo(range 1-92) the overall implant survival was 97.7% and 95.1% for any operative reason related to the implant. Twenty-three knees(2.2%) required revision surgery. Arthrofibrosis was the most common indication for a re-operation. The clinical evaluation and patient-reported outcomes revealed good to excellent patient satisfaction and function of the arthroplasty. The median postoperative VAS-pain scores on a scale of 0-100, at one year after surgery were 1 in rest and 2 during movement.CONCLUSION The Ti N coated, mobile bearing TKA results are excellent and similar to those of other widely used TKA designs. Residual pain of the knee remains a concern and the Ti N coating in combination with the mobile bearing does not seem to be the simple solution to this problem. Future research will have to show that the coating gives a better survival than the cobalt chrome version.展开更多
The TiN coatings on the surfaces of various cemented carbides were performed by use of reactive magnetron sputtering. The highest microhardness which was obtained in our experiment was 49 GPa. The order of effects of ...The TiN coatings on the surfaces of various cemented carbides were performed by use of reactive magnetron sputtering. The highest microhardness which was obtained in our experiment was 49 GPa. The order of effects of deposition parameters is resulted from the L16 experiments according to orthogonal design. The pole density analysis indicated that there were a few of the textureless samples. The crystal orientation of TiN exhibited clear regularity and affected microhardness and other properties of films remarkably. A concept relating to structure factor was proposed. A layer-like structure was found. SAES showed that a transition layer exists between substrate and coating and its thickness is of a micron. The formation mechanism of film was discussed.展开更多
TiN and TiAlN coatings were deposited by arc ion plating on titanium alloys to study their hot corrosion resistance when they were exposed to NaCl at 600℃.The microstructure and corrosion behaviors of nitride coating...TiN and TiAlN coatings were deposited by arc ion plating on titanium alloys to study their hot corrosion resistance when they were exposed to NaCl at 600℃.The microstructure and corrosion behaviors of nitride coatings were studied using scanning electron microscope,X-ray diffraction,electro-probe microanalyzer and X-ray photoelectron spectroscopy.The results showed that nitride coatings with the different compositions and the ones with the same composition but different thicknesses presented different hot corrosion resistance.TiN and thin TiAlN coatings showed poor corrosion resistance.Serious internal oxidation attacked the alloy substrate.Their corrosion products were mainly consisted of non-protective TiO2 and sodium salt.By contrast,the thick TiAlN coating presented outstanding corrosion resistance.Besides sodium salt,the corrosion products were composed of protective Al_(2)O_(3).The increasing thickness of TiAlN significantly enhanced the hot corrosion resistance.The corrosion mechanisms of alloy,TiN and TiAlN coatings were discussed in detail.展开更多
Aqueous zinc-ion batteries(AZIBs)have become attractive energy storage devices,owing to their high energy density,low cost,and environmental friendliness.However,the stability of the zinc-metal anode has been retarded...Aqueous zinc-ion batteries(AZIBs)have become attractive energy storage devices,owing to their high energy density,low cost,and environmental friendliness.However,the stability of the zinc-metal anode has been retarded by dendrites and side reactions during the cycling process,limiting its practical application in secondary batteries.In this work,porous titanium nitride(TiN)nanosheets with a high surface area are demonstrated as a multiplefunction anode coating to realize long-term dendrite-free AZIBs.The TiN nanosheets with the features of high specific surface area and metallic properties optimize electron conduction and zinc-ion flux,lowering the polarization on the electrode surface.In this way,the TiN-coated zinc electrodes exhibit a long cycle performance for more than 600 h without any dendrite formation.In addition,the full AZIB assembly based on the TiN-coated zinc electrode has a stable cycling performance for over 600 cycles with 97.04%capacity retention.This work expands applications of the inorganic porous materials as protective layers in high-energy battery systems.展开更多
Cubic boron nitride particles coated by titanium nitride (TiN/cBN) as well as diamond particles coated by titanium carbide (TiC/diamond) were prepared by Ti molten salt deposition followed by heat-treatment process. c...Cubic boron nitride particles coated by titanium nitride (TiN/cBN) as well as diamond particles coated by titanium carbide (TiC/diamond) were prepared by Ti molten salt deposition followed by heat-treatment process. cBN or diamond particles were mixed separately with Ti powders and molten salts (KCl, NaCl and K<sub>2</sub>TiF<sub>6</sub>). The mixture was heated at 900 °C under argon atmosphere. The produced particles were heat-treated under hydrogen at 1000 °C. The morphologies and chemical compositions of the produced particles were investigated by scanning electron microscopy (SEM), X-ray diffraction (XRD) and focused ion beam (FIB). The results show that the cBN and the diamond particles are coated by nano-sized Ti layers. By heat-treatment of the Ti/cBN and TiC/diamond coated particles under hydrogen atmosphere, the deposited Ti layers were interacted by the in-situ transformation reaction with the surfaces of cBN and diamond particles and converted to titanium compounds (TiN and TiC), respectively.展开更多
Laser cladding,together with laser nitriding was used to synthesize a titanium nickel intermetallic compound layer on the nickel substrate and a TiN coating on the cladding layer. During the laser cladding, Ti and Ni ...Laser cladding,together with laser nitriding was used to synthesize a titanium nickel intermetallic compound layer on the nickel substrate and a TiN coating on the cladding layer. During the laser cladding, Ti and Ni powders were blown into the melting pool by a six-hole coaxial nozzle powder injection system. Exothermic reactions between Ti and Ni took place in the melting pool, and a cladding layer of titanium nickel intermetallic compounds was produced. Laser nitriding in a nitrogen-rich atmosphere followed the production of the cladding layer, and formed a golden yellow TiN layer over it. An optical and a scanning electron microscope were used to investigate the microstructures and measure the thicknesses of the cladding layer and the TiN layer. Phase identification was carried out by XRD. For the nitriding sample, the microhardness profile of the clad layer was tested. The optimal process parameters of the in situ synthesis of titanium nickel intermetallic compounds were obtained.展开更多
文摘AIM To evaluate the influence of the titanium nitride(TiN) coating on the results of a total knee arthroplasty(TKA). METHODS A total of 910 patients(338 men; 572 woman), with a mean age of 65(range 36-94) undergoing 1031 primary TKAs were assessed. Clinical evaluation and patientreported outcomes were gathered one year after surgery. The questionnaires included the Knee injury and Osteoarthritis Outcome Score(KOOS)-Dutch version, Visual Analogue Scale(VAS) pain scores in rest and during active knee movement, VAS-satisfaction scores, and EQ-5 D-3 L health scores. This was aimed to assess the overall knee function and patient satisfaction, and to enable us to make a gross comparison to other TKAs.RESULTS At a mean follow-up of 46 mo(range 1-92) the overall implant survival was 97.7% and 95.1% for any operative reason related to the implant. Twenty-three knees(2.2%) required revision surgery. Arthrofibrosis was the most common indication for a re-operation. The clinical evaluation and patient-reported outcomes revealed good to excellent patient satisfaction and function of the arthroplasty. The median postoperative VAS-pain scores on a scale of 0-100, at one year after surgery were 1 in rest and 2 during movement.CONCLUSION The Ti N coated, mobile bearing TKA results are excellent and similar to those of other widely used TKA designs. Residual pain of the knee remains a concern and the Ti N coating in combination with the mobile bearing does not seem to be the simple solution to this problem. Future research will have to show that the coating gives a better survival than the cobalt chrome version.
文摘The TiN coatings on the surfaces of various cemented carbides were performed by use of reactive magnetron sputtering. The highest microhardness which was obtained in our experiment was 49 GPa. The order of effects of deposition parameters is resulted from the L16 experiments according to orthogonal design. The pole density analysis indicated that there were a few of the textureless samples. The crystal orientation of TiN exhibited clear regularity and affected microhardness and other properties of films remarkably. A concept relating to structure factor was proposed. A layer-like structure was found. SAES showed that a transition layer exists between substrate and coating and its thickness is of a micron. The formation mechanism of film was discussed.
基金the National Natural Science Foundation of China(Nos.51901071,51871229 and 51701223)the Program for Innovative Research Team(in Science and Technology)in University of Henan Province(No.20IRTSTHN016)+3 种基金the High-Level Talents Introduction Project of Henan Institute of Science and Technology(No.203010618003)the Science and Technology Research Project of Henan Province(No.202102310288)the Landmark Innovation Project of Henan Institute of Science and Technologythe Young Key Teachers Projects in Henan Higher Education Institutions(No.2018GGJS113)。
文摘TiN and TiAlN coatings were deposited by arc ion plating on titanium alloys to study their hot corrosion resistance when they were exposed to NaCl at 600℃.The microstructure and corrosion behaviors of nitride coatings were studied using scanning electron microscope,X-ray diffraction,electro-probe microanalyzer and X-ray photoelectron spectroscopy.The results showed that nitride coatings with the different compositions and the ones with the same composition but different thicknesses presented different hot corrosion resistance.TiN and thin TiAlN coatings showed poor corrosion resistance.Serious internal oxidation attacked the alloy substrate.Their corrosion products were mainly consisted of non-protective TiO2 and sodium salt.By contrast,the thick TiAlN coating presented outstanding corrosion resistance.Besides sodium salt,the corrosion products were composed of protective Al_(2)O_(3).The increasing thickness of TiAlN significantly enhanced the hot corrosion resistance.The corrosion mechanisms of alloy,TiN and TiAlN coatings were discussed in detail.
基金financially supported by the National Natural Science Foundation of China(21925110,21890750,21890754,21890751,and U1832168)the Strategic Priority Research Program of the Chinese Academy of Sciences(XDB36000000)+2 种基金the Fundamental Research Funds for the Central Universities(WK5290000001)the Institute of Energy,Hefei Comprehensive National Science Center(21KZS213)Anhui Provincial Natural Science Foundation(1808085MB26)。
文摘Aqueous zinc-ion batteries(AZIBs)have become attractive energy storage devices,owing to their high energy density,low cost,and environmental friendliness.However,the stability of the zinc-metal anode has been retarded by dendrites and side reactions during the cycling process,limiting its practical application in secondary batteries.In this work,porous titanium nitride(TiN)nanosheets with a high surface area are demonstrated as a multiplefunction anode coating to realize long-term dendrite-free AZIBs.The TiN nanosheets with the features of high specific surface area and metallic properties optimize electron conduction and zinc-ion flux,lowering the polarization on the electrode surface.In this way,the TiN-coated zinc electrodes exhibit a long cycle performance for more than 600 h without any dendrite formation.In addition,the full AZIB assembly based on the TiN-coated zinc electrode has a stable cycling performance for over 600 cycles with 97.04%capacity retention.This work expands applications of the inorganic porous materials as protective layers in high-energy battery systems.
文摘Cubic boron nitride particles coated by titanium nitride (TiN/cBN) as well as diamond particles coated by titanium carbide (TiC/diamond) were prepared by Ti molten salt deposition followed by heat-treatment process. cBN or diamond particles were mixed separately with Ti powders and molten salts (KCl, NaCl and K<sub>2</sub>TiF<sub>6</sub>). The mixture was heated at 900 °C under argon atmosphere. The produced particles were heat-treated under hydrogen at 1000 °C. The morphologies and chemical compositions of the produced particles were investigated by scanning electron microscopy (SEM), X-ray diffraction (XRD) and focused ion beam (FIB). The results show that the cBN and the diamond particles are coated by nano-sized Ti layers. By heat-treatment of the Ti/cBN and TiC/diamond coated particles under hydrogen atmosphere, the deposited Ti layers were interacted by the in-situ transformation reaction with the surfaces of cBN and diamond particles and converted to titanium compounds (TiN and TiC), respectively.
文摘Laser cladding,together with laser nitriding was used to synthesize a titanium nickel intermetallic compound layer on the nickel substrate and a TiN coating on the cladding layer. During the laser cladding, Ti and Ni powders were blown into the melting pool by a six-hole coaxial nozzle powder injection system. Exothermic reactions between Ti and Ni took place in the melting pool, and a cladding layer of titanium nickel intermetallic compounds was produced. Laser nitriding in a nitrogen-rich atmosphere followed the production of the cladding layer, and formed a golden yellow TiN layer over it. An optical and a scanning electron microscope were used to investigate the microstructures and measure the thicknesses of the cladding layer and the TiN layer. Phase identification was carried out by XRD. For the nitriding sample, the microhardness profile of the clad layer was tested. The optimal process parameters of the in situ synthesis of titanium nickel intermetallic compounds were obtained.
