133 Fabrication of Nano formed surfaces on hard brittle materials
スポンサーリンク
概要
- 論文の詳細を見る
Functional surface generation by periodic regular structures such as arrays of dots, lines (short and long) at ultra precision level on hard brittle materials finds applications in optical, electrical and semiconductor applications. This paper reports on development of nano formed surfaces on hard brittle materials. Textured surfaces by periodic structures were fabricated on soda glass, firelite glass and silicon. Specially designed and developed nano indentation tester, knife edged and nano structured diamond indenters were used for the generation of such surfaces. Load-depth analysis on the formed surfaces was carried out. Critical depth, at which ductile to brittle transition in deformation occurs, was assessed for the hard brittle materials. Limit of ductile mode indentation for hard brittle materials was discussed in detail.
- 一般社団法人日本機械学会の論文
著者
-
YOSHINO Masahiko
Department of Mechanical and Control Engineering, Tokyo Institute of Technology
-
FUJII Nobuyuki
Department of Chemistry, Nagaoka University of Technology
-
Fujii Nobuyuki
Department Of Chemistry Nagaoka University Of Technology
-
Yoshino Masahiko
Department Of Mechanical And Control Engineering Tokyo Institute Of Technology
-
Aravindan Sivanandam
Department of Mechanical and Control Engineering, Tokyo Institute of Technology
-
Fujii Nobuyuki
Department Of Mechanical And Control Engineering Tokyo Institute Of Technology
-
Aravindan Sivanandam
Department Of Mechanical And Control Engineering Tokyo Institute Of Technology
関連論文
- Single-Point Incremental Micro-Forming of Thin Shell Products Utilizing High Formability
- Direct Disulfide Formation from 2-Quinolinylmethyl Thioethers with Iron(III) or Copper(II) Salt
- Electrostatic Sieve Separation of Dextransulfate and Dextran by Negatively Charged Ultrafiltration Membranes
- Molecular Imprinting in Hydrogen Bonding Networks of Polyamide Nylon for Recongnition of Amino Acids
- Molecular Imprinting of Theophylline in Acrylonitrile-acrylic Acid Copolymer Membrance
- チタン酸化物を包含したゼオライトの評価とその光触媒的NO分解への応用〔英文〕
- Silane Coupling Agents for Photografting of Vinyl Monomer. Preparation and Properties of (N, N-Diethylamino)-dithiocarbamoylpropyl(trimethoxy)silane
- C18 Machining properties of hard-brittle materials under high external hydrostatic pressure(Ultra-precision machining)
- 133 Fabrication of Nano formed surfaces on hard brittle materials
- Nano Forming Process for Functional Surface(M^4 processes and micro-manufacturing for science)
- A22 Development of ordered nano structure surface by using nano plastic forming(M4 processes and micro-manufacturing for science)
- A20 New Approach to Nanofabrication with Non-photolithographic Pattern Transfer by Nano Plastic Forming (NPF) and Etching Processes(M4 processes and micro-manufacturing for science)
- A23 Fundamental Study for Development of Metallic Functional Material by Nano/micro Plastic Forming(M4 processes and micro-manufacturing for science)
- Development of a Machining Tester for Two Dimensional Machining Test under External Hydrostatic Pressure(Advanced Manufacturing Technology (II))
- Machining Test under External hydrostatic Pressure(Advanced machining technology (continued))
- Effect of Ultrasound on Enhanced Permeability During Membrane Water Treatment
- Kinetics and Mechanism for the Oxidation of CS_2 and COS at High Temperature
- Analysis of Photodecomposition of Gaseous Chlorobenzene by KrF Excimer Laser
- Luminescence Study of Copper Halides in Oxygen Discharge Flow Containing Chlorine
- An Efficient Excitation of Iodine Atoms by Mixing of Two Microwave Discharged Flows of I_2 and Oxygen Containing Singlet Oxygen
- An X-Ray Stress Measurement Method for Very Small Areas on Single Crystals
- Ring Beam Shaping Optics Fabricated with Ultra-precision Cutting for YAG Laser Processing
- An Efficient Excitation of Iodine Atoms by Mixing of Two Microwave Discharged Flows of I2 and Oxygen Containing Singlet Oxygen
- Determination of the rate constant for the reaction NH3+O.RAR.NH2+OH.
- Simulation of absorption spectra of polyenes produced in PVA film by heating and kinetics of polyenes formation.