MXene-derived TiO2 nanosheets/rGO heterostructures for superior sodium-ion storage by Baosong Li, Dezhuang Ji, Abdallah Kamal Hamouda, Shaohong Luo

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Structure of ADI Cast Iron as a Cast “in situ” Composite Reinforced with TiC Ceramic Particles by J. Marosz, M. Kawalec, M. Górny

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Sensitivity Analysis of the Johnson-Cook Model for Ti-6Al-4V in Aeroengine Applications by Carlos Beecher, Héctor Sepúlveda, Angelo Oñate, Anne Marie Habraken, Laurent Duchêne, Gonzalo Pincheira, Víctor Tuninetti

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Spinal Instrumentation in the Setting of Nontuberculous Spondylodiscitis: A Prospective Analysis by Himanshu Prasad, P. V. Satyanarayana Murthy, Vamsi K Varma, A. V. Gurava Reddy

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Characterization of TiO2 Nanofilms Obtained by Sol-gel and Anodic Oxidation by María Laura Vera, Miguel Ángel Alterach, Mario Roberto Rosenberger, Diego Germán Lamas, Carlos Enrique Schvezov, Alicia Esther Ares

Subjects: “…Titanium Oxide Films…”
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APPLICATION OF MODIFYING ALLOYING ALLOY CONTAINING NANOSIZED POWDERS OF ACTIVE ELEMENTS IN PRODUCTION OF HIGH-STRENGTH CAST IRON WITH GLOBULAR GRAPHITE by A. S. Kalinichenko, A. G. Slutsky, V. A. Sheinert

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TiO2 phase-controlled synthesis of Li-La-TiO solid electrolytes for advanced all-solid-state batteries by Minjeong Kim, Wolil Nam, Jihye Seo, Jihyun Park, Seokha Heo, Yuna Hwang, Sang-Soo Chee, Soobeom Lee, Seungchan Cho, Geon−hyoung An, Yangdo Kim, Moonhee Choi

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Effect of Cross-Sectional Designs of Different Ni-Ti Files on Shaping Ability After Repeated Usage in Simulated Root Canals. by Fikrat Shawqi Qaddori, Raid Fahim Salman

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The crystal structure of 1,1′-(((2 (dimethylamino)ethyl)azanediyl)bis(methylene)) bis(naphthalen-2-olato-κ4 N,N′,O,O′)-(pyridine-2,6-dicarboxylato-N,O,O′)- titanium(IV) ─ dichloromethane (2/1), C33H29N3O6Ti by Zhao Tiankun, Wang Peng, Ji Mingyu, Li Shanjia, Yang Mingjun, Pu Xiuying

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The crystal structure of 6,6′-(((2-(dimethylamino)ethyl)azanediyl)bis(methylene))bis(2-chloro-4-methyl phenolate-κ4N,N′,O,O′)-(pyridine-2,6-dicarboxylato-N,O,O′)-titanium(IV), C27H27Cl2N3O6Ti by Yang Mingjun, Wang Canghai

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A comparative bio-mechanical performance assessment of additively manufactured bone scaffolds using different beta Ti alloys and Gyroid based cellular structure by Mudassar Rehman, Yanen Wang, Kashif Ishfaq, Ray Tahir Mushtaq, Aqib Mashood Khan, Mohammed Alkahtani, Aamer Nazir, Maimoona Afzal

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Cranial reconstruction utilizing polymeric implants in two different designs: finite element investigation by Yomna H. Shash

“…Titanium, CFR-PEEK 30 & 60% implants (whether mesh or flat) were not prone to fracture, unlike mesh PEEK implants. …”
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Green Synthesis of Citrus sinensis Peel Extract-Mediated Ag-TiO2 and Its Application as a Photocatalyst for Organic Molecules and Antimicrobial Agent by Daniel Narh, Benjamin Sampson, Samuel Ocrah Junior, Gloria Pokuaa Manu, Benjamin Agyei-Tuffour, Emmanuel Nyankson, Johnson Kwame Efavi

“…In this work, Citrus sinensis peel extract was used to synthesize silver-titanium dioxide, and the photocatalytic properties were evaluated in comparison with pristine titanium dioxide for wastewater purification and the antimicrobial efficacy tested. …”
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Analysis and Research of the High-Cycle Fatigue Fracture Mode Based on Stress Ratio and Residual Stress of Ti-6Al-4V by Fu Wang, Jian-Jun Wang, Qin-Sheng Li, Guo-Zhu Ren, Xin-Jian Zhang, Shu-quan Zhang

“…The content of titanium is about 0.63% in the earth’s crust, and it ranks 10th among all elements. …”
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Influence of different polymeric materials of implant and attachment on stress distribution in implant-supported overdentures: a three-dimensional finite element study by Sherif Elsayed, Yousra Ahmed, Mohamed I. El-Anwar, Enas Elddamony, Reem Ashraf

“…Abstract Purpose Investigating high performance thermoplastic polymers as substitutes to titanium alloy, in fabrication of implants and attachments to support mandibular overdenture, aiming to overcome stress shielding effect of titanium alloy implants. …”
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Synergy of the Combination of Titanate Nanotubes with Titania Nanoparticles for the Photocatalytic Hydrogen Generation from Water-Methanol Mixture Using Simulated Sunlight by Marco Serra, Hermenegildo Garcia

“…Alkali digestion of titanium nanoparticles leads, after neutralization, to the formation of titanate nanotubes with long aspect ratio. …”
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Effect of TiO2/SiO2 ratio on structure and properties of BaO–CaO–SiO2–TiO2–CaF2–Li2O–Na2O slag system by Hebin Jin, Shuyao Yang, Zhuo Chen, Xubin Zhang, Shengping He, Qiangqiang Wang

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PERSPECTIVES OF NANOPOWDERS APPLICATION FOR MANUFACTURING OF MODIFYING ALLOYING COMPOSITIONS by A. Kalinichenko, A. Slutsky, V. Sheinert, N. Zyk, V. Borodulya, О. Rabinovich

“…The aim of present research is study of initial nanoparticles structure on the base of titanium, boron, yttrium and carbon nanotubes as well as development of method to manufacture alloying alloys containing nanoparticles.Investigations of nanopowders phase compositions on the base of titanium, boron and yttrium have shown that active elements such as boron carbide, titanium carbide and nitride, yttrium oxide are base compounds of these nanopowders. …”
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Galvanic enhancement for high pressure leaching of chalcopyrite by Kim D.H., Kim W.J., Kim H.S., Han K.S., Tran T., Kim M.J.

“…A slow heating time seems to produce more sulphur coating, reducing the leaching performance, yielding much lower Cu recovery when the teflon lining was used, although this does not greatly affect the other case when the reactor was lined with titanium. The introduction of an electronic conductor, in this case the titanium surface, is believed to enhance this redox process, in which the oxidation of copper minerals and sulphur to sulphate at the anodic sites (mineral surface) encountered during POX leaching takes place simultaneously with the reversible oxidation/reduction of the Fe2+/Fe3+couple and oxygen reduction on titanium.…”
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Finite-Element Analysis of the Effect of Utilizing Various Material Assemblies in “All on Four” on the Stresses on Mandible Bone and Prosthetic Parts by Yomna H. Shash, Mohamed T. El-Wakad, Mohamed A. A. Eldosoky, Mohamed M. Dohiem

“…These assemblies were titanium (Type 1), titanium/PEEK (Type 2), and PEEK (Type 3). …”
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