ÎïÁÏ¿Æѧ
Material Science
ÎïÁÏ¿Æѧ¶¨ÒåMaterial Science Definition
¼Ó¹¤ÐÔÄÜ
Machinability
Ç¿¶È
Strength
¿¹¸¯Ê´¼°ÄÍÓÃ
Corrosion & resistance durability
½ðÊôÌØÐÔ
Special metallic features
¿¹Ãô¸Ð¼°»·¾³±£»¤
Allergic, re-cycling & environmental protection
»¯Ñ§ÔªËØ
Chemical element
ÔªËصÄÔ­×ÓÐòÊý
Atom of Elements
Ô­×Ó¼°¹ÌÌåÎïÖÊ
Atom and solid material
Ô­×ÓµÄ×é³É¡¢´óС¡¢Ìå»ýºÍµ¥Î»Í¼±í
The size, mass, charge of an atom, and is particles (Pronton,Nentron
and Electron)
Ô­×ÓµÄ×é֯ͼ
Atom Constitutes
ÖÜÆÚ±í
Periodic Table
Ô­×Ó¼ü½á
Atom Bonding
½ðÊôÓëºÏ½ð Metal and Alloy
Ìú¼°·ÇÌú½ðÊô
Ferrous & Non Ferrous Metal
½ðÊôµÄÌØÐÔ
Features of Metal
¾§Ìå½á¹¹ Crystal Pattern
¾§Ìå½á¹¹£¬¶¨Ïò¸ñ×Ó¼°µ¥Î»¾§¸ñ
Crystal structure, Space lattice & Unit cell
XÏ߽ᾧ·ÖÎö·¨
X – ray crystal analyics method
½ðÊô½á¾§¸ñ×Ó Metal space lattice
¸ñ×Ó³£Êý Lattice constant
Ã×ÀÕÖ¸Êý Mill's Index
½ðÏ༰ÏàÂÉ Metal Phase and Phase Rule
¹ÌÈÛÌå Solid solution
Öû»Ð͹ÌÈÛÌå Substitutional type solid solution
²åÈëÐ͹ÌÈÛÌå Interstital solid solution
½ðÊô¼ä»¯Îï Intermetallic compound
½ðÊô±ä̬
Transformation
±ä̬µã
Transformation Point
´ÅÐÔ±ä̬
Magnetic Transformation
ͬËرä̬
Allotropic Transformation
ºÏ½ðƽºâ״̬
Thermal Equilibrium
ÏàÂÉ
Phase Rule
×ÔÓɶÈ
Degree of freedom
ÁÙ½çζÈ
Critical temperture
¹²¾§
Eutectic
°ü¾§ÎÂ¶È Peritectic Temperature
°ü¾§·´Ó¦ Peritectic Reaction
°ü¾§ºÏ½ð Peritectic Alloy
Ñǹ²¾§Ìå Hypoeutetic Alloy
¹ý¹²¾§Ìå Hyper-ectectic Alloy
½ðÊôµÄÏàÈÚ¡¢ÏàÈÚζȡ¢¾§Ìå·´Ó¦¼°ºÏ½ðÔÚ¹²¾§ºÏ½ð¡¢¹ÌÈÛŒY¹²¾§ºÏ½ð¼°Æ«¾§·´Ó¦µÄ±È½Ï
Equilibrium Comparision
½ðÊôËÜÐÔ Plastic Deformation
»¬¶¯Ãæ Slip Plan
»û±ä Distortion
Ó²»¯ Work Hardening
ÍË»ð Annealing
»Ø¸´ÈáÈí Crystal Recovery
Ôٽᾧ Recrystallization
½ðÊô²ÄÁϵÄÐÔÄܼ°ÊÔÑé
Properties & testing of metal
»¯Ñ§ÐÔÄÜ
Chemical Properties
ÎïÀíÐÔÄÜ
Physical Properties
ÑÕÉ«
Colour
´ÅÐÔ
Magnetisum
±Èµç×è
Specific resistivity & specific resistance
±ÈÖØ
Specific gravity & specific density
±ÈÈÈ
Specific Heat
ÈÈÅòÕÍϵÊý
Coefficient of thermal expansion
µ¼ÈȶÈ
Heat conductivity
»úеÐÔÄÜ Mechanical properties
Çü·þÇ¿¶È(½µ·üÇ¿¶È) (Yield strangth)
µ¯ÐÔÏ޶ȡ¢ÑôÊϵ¯ÐÔϵÊý¼°Çü·þµã
elastic limit, Yeung's module of elasticity to yield point
É쳤¶È
Elongation
¶ÏÃæËõÂÊ
Reduction of area
½ðÊô²ÄÁϵÄÊÔÑé·½·¨
The Method of Metal inspection
²»ÆÆ»µ¼ìÑé
Non – destructive inspections
Éø͸̽ÉË·¨
Penetrate inspection
´Å·Û̽ÉË·¨
Magnetic particle inspection
·ÅÉäÏß̽ÉË·¨
Radiographic inspection
³¬Éù²¨Ì½ÉË·¨
Ultrasonic inspection
ÏÔ΢¹Û²ì·¨
Microscopic inspection
ÆÆ»µµÄ¼ìÑé
Destructive Inspection
³å»÷²âÊÔ
Impact Test
Æ£ÀͲâÊÔ
Fatigue Test
DZ±ä²âÊÔ Creep Test
DZ±äÇ¿¶È
Creeps Strength
µÚҼDZ±äÆÚ
Primary Creep
µÚ¶þDZ±äÆÚ
Secondary Creep
µÚÈýDZ±äÆÚ
Tertiary Creep
Ö÷Òª½ðÊôÔªËØÖ®ÎïÀíÐÔÖÊ
Physical properties of major Metal Elements
¹¤Òµ±ê×¼¼°¹æ¸ñ – Ìú¼°·ÇÌú½ðÊô
Industrial Standard – Ferrous & Non – ferrous Metal
´ÅÁ¦ Magnetic
¼ò½é General
Èí´Å Soft Magnetic
Ó²´Å Hard Magnetic
´Å³¡ Magnetic Field
´ÅÐÔ¸ÐÓ¦ Magnetic Induction
͸´Å¶È Magnetic Permeability
´Å»¯ÂÊ Magnetic Susceptibility (Xm)
´ÅÁ¦(Magnetic Force)¼°´Å³¡(Magnetic Field)ÊÇÒòÎïÁÏÀïµÄµç×Ó(Electron)»î¶¯¶ø²úÉú
¿¹´ÅÌ塢˳´ÅÌå¡¢Ìú´ÅÌå¡¢·´Ìú´ÅÌå¼°ÑÇÌú´ÅÌå
Diamagnetism, Paramagnetic, Ferromagnetism,Antiferromagnetism &
Ferrimagnetism
¿¹´ÅÌå Diamagnetism
´Åż¼«×Ó Dipole
¸º´ÅÁ¦Ð§Ó¦ Negative effect
˳´ÅÌå Paramagnetic
Õý´Å»¯ÂÊ Positive magnetic susceptibility
Ìú´ÅÌå Ferromagnetism
ת±äÔªËØ Transition element
½»»»ÄÜÁ¿ Positive energy exchange
Íâ¼Ûµç×Ó Outer valence electrons
»¯Ñ§½áºÏ Chemical bond
×Ô·¢ÉÏ´Å Spontaneous magnetization
´Å³ë Magnetic domain
Ïà·´Ðýת Opposite span
±È½Ï¿¹´ÅÌ塢˳´ÅÌå¼°Ìú´ÅÌå
Comparison of Diamagnetism, Paramagnetic & Ferromagnetism
·´Ìú´ÅÌå Antiferromagnetism
ÑÇÌú´ÅÌå Ferrimagnetism
´Å¾Ø magnetic moment
¾»´Å¾Ø Net magnetic moment
¸ÖÌúµÄÖ÷Òª³É·Ý
The major element of steel
¸ÖÌúÓÃ"̼"Ö®º¬Á¿À´·ÖÀà
Classification of Steel according to Carbon contents
ÌúÏà
Steel Phases
¸ÖÌúµÄÃû³Æ
Name of steel
´¿ÌúÌå
Ferrite
Éø̼Ìå
Cementitle
°ÂÊÏÌå Austenite
Öé¹âÌå¼°¹²Ê͸Ö
Pearlite &Eutectoid
°ÂÊÏÌå̼¸Ö
Austenite Carbon Steel
µ¥Ïà½ðÊô
Single Phase Metal
¹²Êͱä̬
Eutectoid Transformation
Öé¹âÌå Pearlite
ÑÇÌúÊÍÌå
Hyppo-Eutectoid
³õÊÍ´¿ÌúÌå Pro-entectoid ferrite
¹ý¹²ÊÍ¸Ö Hype-eutectoid
Öé¹âÌå
Pearlite
´ÖÖé¹âÌå Coarse pearlite
ÖÐÖé¹âÌå Medium pearlite
Ó×Öé¹âÌå Fine pearlite
´ÅÐÔ±ä̬µã Magnetic Transformation
¸ÖÌúµÄÖÆÔì
Manufacturing of Steel
Á¬ÐøÖýÔì·¨ Continuous casting process
µç¯ Electric furnace
¾ùÈȯ Soaking pit
È«¾²¸Ö Killed steel
°ë¾²¸Ö Semi-killed steel
·ÐÌÚ¸Ö(δ¾»¸Ö) Rimmed steel
¸ÖÌúÉú²úÁ÷³Ì Steel Production Flow Chart
¸Ö²ÄµÄÈÛÖý¡¢¶ÍÔì¡¢¼·Ñ¹¼°ÑÓÔþ
The Casting, Fogging, Extrusion, Rolling & Steel
ÈÛÖý Casting
¶ÍÔì Fogging
¼·Ñ¹ Extrusion
ÑÓÔþ Rolling
³å¼ô Drawing & stamping
ÌØÊâ¸Ö Special Steel
¼ò½é
General
ÌØÊâ¸ÖÒÔÔ­ËØ·ÖÀà
Classification of Special Steel according to Element
ÌØÊâ¸ÖÒÔÓÃ;À´·ÖÀà
Classification of Special Steel according to End Usage
Ò׳µ(¿ìÏ÷)²»Ðâ¸Ö
Free Cutting Stainless Steel
º¬Ç¦Ò׳µ¸Ö
Leaded Free Cutting Steel
º¬ÁòÒ׳µ¸Ö
Sulphuric Free Cutting Steel
Ó²»¯ÐÔÄÜ
Hardenability
¸ÖµÄ´àÐÔ
Brittleness of Steel
µÍδàÐÔ Cold brittleness
»Ø»ð´àÐÔ Temper brittleness
ÈÕ¹¤±ê׼ϵÄÌØÊâ¸Ö²Ä
Specail Steel according to JIS Standard
¸õ¸Ö – ÈÕ¹¤±ê×¼ JIS G4104
Chrome steel to JIS G4104
¸õîâ¸Ö¸Ö²Ä – ÈÕ¹¤±ê×¼ G4105 62
Chrome Molybdenum steel to JIS G4105
Äø¸õ – ÈÕ¹¤±ê×¼ G4102 63
Chrome Nickel steel to JIS G4102
Äø¸õîâ¸Ö – ÈÕ¹¤±ê×¼ G4103 64
Nickel, Chrome & Molybdenum Steel to JIS G4103
¸ßÃ̸ÖÖý – ÈÕ¹¤±ê×¼
High manganese steel to JIS standard
Ƭ¼°°å²Ä
Chapter Four-Strip, Steel & Plate
ÀäꤵÍ̼¸ÖƬ(Ë«µ¥¹âƬ)(ÈÕ¹¤±ê×¼ JIS G3141) 73 - 95
Cold Rolled (Low carbon) Steel Strip (to JIS G 3141)
¼ò½é
General
ÃÀ²ÄÊÔ±ê×¼µÄÀäꤵÍ̼¸ÖƬ
Cold Rolled Steel Strip American Standard – American Society for
testing and materials (ASTM)
ÈÕ¹¤±ê×¼JIS G3141ÀäꤵÍ̼¸ÖƬ(Ë«µ¥¹âƬ)µÄ±àºÅdzÊÍ
Decoding of cold rolled(Low carbon)steel strip JIS G3141
²ÄÁϵļӹ¤ÐÔÄÜ Drawing abillity
Ó²¶È Hardness
±íÃæ´¦Àí Surface finish
ÀäꤸÖÀ¦Æ¬¼°ÕÅƬÖÆ×÷Á÷³Ìͼ±í
Production flow chart cold rolled steel coil sheet
ÀäꤸÖÀ¦Æ¬¼°ÕÅƬµÄµç¶ÆºÍÓ¡Ë¢·½·¨
Cold rolled steel coil & sheet electro-plating & painting method
Àäê¤(µÍ̼)¸ÖƬµÄ·ÖÀàÓá¢Í¾¡¢¹¤Òµ±ê×¼¡¢Æ·ÖÊ¡¢¼ÓÈÈ״̬¼°Ó²¶È±í
End usages, industrial standard, quality, condition and hardness of
cold rolled steel strip
Ó²¶È¼°À­Á¦ Hardness & Tensile strength test
À­Éì²âÊÔ(˳ÎƲâÊÔ)
Elongation test
±­Í»²âÊÔ(ºñ¶È: 0.4¹«ÀåÖÁ1.6¹«À壬׼ȷÖÁ0.1¹«Àå 3¸öÊÔƬƽ¾ùÊý)
Erichsen test (Thickness: 0.4mm to 1.6mm, figure round up to 0.1mm)
ÇúÃæ(¼ÙÇúÂÊ)
Camber
ºñ¶È¼°À«¶È¹«²î Tolerance on Thickness & Width
ƽ̹¶È(À«¶È´óÓÚ500¹«À壬±ê×¼»Ø»ð)
Flatness (width>500mm, temper: standard)
Íä¶È Camber
ÀäꤸÖƬ´¢´æÓë´¦ÀíÌáʾ
General advice on handling & storage of cold rolled steel coil &
sheet
·ÀÖ¹ÉúÐâ
Rust Protection
ÉúÐâËٶȱí
Speed of rusting
º¸½Ó Welding
Æøº¸ Gas Welding
Âñ»¡º¸ Submerged-arc Welding
µç×躸 Resistance Welding
ÀäꤸÖƬ(À­Á¦: 30-32¹«½ï/ƽ·½Ã×)ÔÚûÓбíÃæ´¦Àí״̬Ïµĺ¸½Ó×´¿ö
Spot welding conditions for bared (free from paint, oxides etc) Cold
rolled mild steel sheets(T/S:30-32 Kgf/ μ m2)
ʱ¼äЧӦ(ÀÏ»¯)¼°À­ÉìÓ¦±ä
Aging & Stretcher Strains
ÈÕ¹¤±ê×¼(JIS G3141)ÀäꤸÖƬ»¯Ñ§³É·Ý
Chemical composition – cold rolled steel sheet to JIS G3141
ÀäꤸÖƬµÄ"ÀíÂÛÖØÁ¿"¼ÆËã·½³Ìʽ
Cold Rolled Steel Sheet – Theoretical mass
ÈÕ¹¤±ê×¼(JIS G3141)ÀäꤸÖƬÖØÁ¿Áбí
Mass of Cold-Rolled Steel Sheet to JIS G3141
ÀäꤸÖƬ¶©»õÐèÖª
Ordering of cold rolled steel strip/sheet
ÆäËüÈÕ¹¤±ê×¼ÀäÔþ¸ÖƬ(ÓÃ;¼°±àºÅ)
JIS standard & application of other cold Rolled Special Steel
µç¶Æп¸ÖƬ»òµç½â¸ÖƬ
Electro-galvanized Steel Sheet/Electrolytic Zinc Coated Steel Sheet
¼ò½é
General
µç½â/µç¶Æп´ó´óÔöÇ¿¸ÖƬµÄ·ÀÐâÄÜÁ¦
Galvanic Action improving Weather & Corrosion Resistance of the Base
Steel Sheet
ÉÏÆáÄÜÁ¦ Paint Adhesion
µç¶Æп¸ÖƬµÄº¸½Ó
Welding of Electro-galvanized steel sheet
µãº¸
Spot welding
¹öº¸
Seam welding
µç¶Æп(µç½â)¸ÖƬ
Electro-galvanized Steel Sheet
Éú²úÁ÷³Ì
Production Flow Chart
³£ÓõĶÆп¸ÖƬ(µç½âƬ)µÄ»ù²ã½ðÊô¡¢ÓÃ;¡¢ÈÕ¹¤±ê×¼¡¢ÃÀ²Ä±ê×¼¼°Ò»°ãºñ¶È
Base metal, application, JIS & ASTM standard, and Normal thickness
of galvanized steel sheet
п¶Æ²ãÖÊÁ¿ Zinc Coating Mass
±íÃæ´¦Àí Surface Treatment
ÀäÔþ¸ÖƬ Cold-Rolled Steel Sheet/Strip
ÈÈÔþ¸ÖƬ Hot-Rolled Sheet/Strip
µç½âÀäÔþ¸ÖƬºñ¶È¹«²î
Thickness Tolerance of Electrolytic Cold-rolled sheet
ÈÈÔþ¸ÖƬºñ¶È¹«²î
Thickness Tolerance of Hot-rolled sheet
ÀäÔþ»òÈÈÔþ¸ÖƬÀ«¶È¹«²î
Width Tolerance of Cold or Hot-rolled sheet
³¤¶È¹«²î Length Tolerance
ÀíÂÛÖÊÁ¿ Theoretical Mass
п¶Æ²ãÖÊÁ¿(Á½¸öÏàͬп¶Æ²ãºñ¶È)
Mass Calculation of coating (For equal coating)/MM
п¶Æ²ãÖÊÁ¿(Á½¸ö²»Í¬Ð¿¶Æ²ãºñ¶È)
Mass Calculation of coating (For differential coating)/MM
¶ÆÎý±¡ÌúƬ(°×ÌúƤ/Âí¿ÚÌú) (ÈÕ¹¤±ê×¼ JIS G3303)
¼ò½é
General
¶ÆÎý±¡ÌúƬµÄ¹¹Ôì
Construction of Electrolytic Tinplate
¶ÆÎý±¡¸ÖƬ(°×ÌúƤ/ÂíÈÕÌú)ÖÆÔì¹ý³Ì
Production Process of Electrolytic Tinplate
Îý²ãÖÊÁ¿
Mass of Tin Coating (JIS G3303-1987)
Á½Ãæ¾ùµÈÎý²ã
Both Side Equally Coated Mass
Á½Ãæ²»¾ùµÈÎý²ã
Both Side Different Thickness Coated Mass
¼¶±ð¡¢µç¶Æ·½·¨¡¢¶Æ²ãÖÊÁ¿¼°³£ÓóƺÅ
Grade, Plating type, Designation of Coating Mass & Common Coating
Mass
¶Æ²ãÖÊÁ¿±ê¼Ç
Markings & Designations of Differential Coatings
Ó²¶È Hardness
µ¥ÏàÔþѹ¶ÆÎý±¡ÌúƬ(°×ÌúƤ/Âí¿ÚÌú)
Single-Reduced Tinplate
Ë«Ïàշѹ¶ÆÎý±¡¸ÖƬ(Âí¿ÚÌú/°×ÌúƤ)
Dual-Reduction Tinplate
¸ÖµÄÖÖÀà Type of Steel
±íÃæ´¦Àí Surface Finish
³£Óóߴç Commonly Used Size
µçÆ÷Óùè [¹è] ¸ÖƬ Electrical Steel Sheet
¼ò½é General
Èí´Å²ÄÁÏ Soft Magnetic Material
Öͺó»ØÏß Narrow Hystersis
½ÃÍç´ÅÁ¦ Coercive Force
Ó²´Å²ÄÁÏ Hard Magnetic Material
×î´óÄÜÁ¿»ý Maximum Energy Product
¹èº¬Á¿¶ÔµçÆ÷ÓõĵÍ̼¸ÖƬµÄ×î´óºÃ´¦
The Advantage of Using Silicon low Carbon Steel
¾§Á£È¡Ïò(Grain-Oriented)¼°·Ç¾§Á£È¡Ïò(Non-Oriented)
Grain Oriented & Non-Oriented
µçÆ÷Óùè [¹è] ¸ÖƬµÄ×îÖÕÓÃ;¼°¹æ¸ñ
End Usage and Designations of Electrical Steel Strip
µçÆ÷ÓõĹè [¹è] ¸ÖƬ֮·ÖÀà
Classification of Silicon Steel Sheet for Electrical Use
µçÆ÷ÓøÖƬµÄ¾øԵͿ²ã
Performance of Surface Insulation of Electrical Steel Sheets
¾§Á£È¡ÏòµçÆ÷Óùè¸ÖƬÖ÷Òª¹¤Òµ±ê×¼
International Standard – Grain-Oriented Electrical Steel Silicon
Steel Sheet for Electrical Use
¾§Á£È¡ÏòµçÆ÷Óùè¸ÖƬ Grain-Oriented Electrical Steel
¾§Á£È¡Ïò£¬¶¨È¡Ïòо¸ÖƬ¼°¸ßÅð¶¨È¡Ïòо¸ÖƬ֮´ÅÁ¦ÐÔÄܼ°¼Ð²ãϵÊý(ÈÕ¹¤±ê×¼¼°ÃÀ²Ä±ê×¼)
Magnetic Properties and Lamination Factor of SI-ORIENT-CORE&
SI-ORIENT-CORE-HI B Electrical Steel Strip (JIS and AISI Standard)
ÍË»ðAnnealing
µçÆ÷ÓøÖƬÓüÒÐè×ÔÐÐÓ¦Á¦ÍË»ðÔ­Òò
Annealing of the Electrical Steel Sheet
ÍË»ðʱעÒâÊÂÏî Annealing Precautionary
̼ÎÛȾ Prevent Carbon Contamination
ÈÈÁ¦Ó¦ÏÈ´Ó¹¤¼þ±ßԵ͸Èë
Heat from the Laminated Stacks Edges
Ìá·À¹ý·ÝÑõ»¯
No Excessive Oxidation
Ó¦Á¦ÍË»ðζÈ
Stress –relieving Annealing Temperature
¾§Á£È¡ÏòµçÆ÷Óùè [¹è] ¸ÖƬ – ¸ßÅð(HI-B)¶¨È¡Ïòо¸ÖƬ¼°¶¨È¡Ïòо¸ÖƬ֮»úеÐÔÄܼ°¼Ð²ãϵÊý
Mechanical Properties and Lamination Factors of SI-ORIENT-CORE-HI-B
and SI-ORIENT-CORE Grain Orient Electrical Steel Sheets
¾§Á£È¡ÏòµçÆ÷Óùè [¹è] ¸Ö;Ƭ – ¸ßÅðµÍÁò(LS)¶¨È¡Ïò ¸ÖƬ֮´ÅÁ¦¼°µçÁ¦ÐÔÄÜ
Magnetic and Electrical Properties of SI-ORIENT-CORE-HI-B-LS
¾§Á£È¡ÏòµçÆ÷Óùè [¹è] ¸ÖƬ – ¸ßÅðµÍÁò(LS) ¶¨È¡Ïò¸ÖƬ֮»úеÐÔÄܼ°¼Ð²ãϵÊý
Mechanical Properties and Lamination Factors of
SI-ORIENT-CORE-HI-B-LS
¾§Á£È¡ÏòµçÆ÷Óùè(¹è)¸ÖƬ-¸ßÅð(HI-B)¶¨È¡Ïò о¸ÖƬ£¬¶¨È¡Ïòо¸ÖƬ¼°¸ßÅðµÍÁò(LS)¶¨È¡Ïòо¸ÖƬ֮ºñ¶È¼°À«¶È¹«²î
Physical Tolerance of SI-ORIENT-CORE-HI-B, SI-ORIENT-CORE, &
SI-CORE-HI-B-LS Grain
Oriented Electrical Steel Sheets
¾§Á£È¡ÏòµçÆ÷Óùè(¹è)¸ÖƬ – ¸ßÅð(HI-B)¶¨È¡Ïò о¸ÖƬ£¬¶¨È¡Ïòо¸ÖƬ¼°¸ßÅðµÍÁò(LS)¶¨È¡Ïòо¸ÖƬ֮±ê×¼³ß´ç¼°°ü×°
Standard Forms and Size of SI-ORIENT-CORE-HI-B,SI-CORE, &
SI-ORIENT-CORE-HI-B-LS Grain-
Oriented Electrical Steel Sheets
¾øÔµ±íÃæ Surface Insulation
·Ç¾§Á£È¡ÏòµçÁ¦ÓøÖƬµÄµçÁ¦¡¢´ÅÁ¦¡¢»úеÐÔÄÜ ¼°¼Ð²ãϵÊý
Lamination Factors of Electrical, Magnetic & Mechanical Non-Grain
Oriented Electrical
µçÆ÷¼°¼ÒµçÍâ¿ÇÓöƲãÀäê¤ [µÍ̼] ¸ÖƬ
Coated (Low Carbon) Steel Sheets for Casing,Electricals & Home
Appliances
¶ÆÂÁ¹è¸ÖƬ Aluminized Silicon Alloy Steel Sheet
¼ò½é General
¶ÆÂÁ¹èºÏ½ð¸ÖƬµÄÌØÉ«
Feature of Aluminized Silicon Alloy Steel Sheet
ÓÃ;
End Usages
¿¹»¯Ñ§Æ·ÄÜÁ¦
Chemical Resistance
¶ÆÂÁ(¹è)¸ÖƬ – ÈÕ¹¤±ê×¼(JIS G3314)
Hot-aluminum-coated sheets and coils to JIS G 3314
¶ÆÂÁ(¹è)¸ÖƬ – ÃÀ²ÄÊÔ±ê×¼(ASTM A-463-77)35.7 JIS G3314¶ÆÈȽþÂÁƬµÄ»úеÐÔÄÜ
Mechanical Properties of JIS G 3314 Hot-Dip Aluminum-coated Sheets
and Coils
¹«²î Size Tolerance
¶ÆÂÁ(¹è)¸ÖƬ¼°ÆäËüÖÖÀà¸ÖƬµÄ¿¹¸¯Ê´ÐÔÄܱȽÏ
Comparsion of various resistance of aluminized steel & other kinds
of steel
¶ÆÂÁ(¹è)¸ÖƬÉú²úÁ÷³Ì
Aluminum Steel Sheet, Production Flow Chart
º¸½ÓÄÜÁ¦ Weldability
¶ÆÂÁ¸ÖƬµÄº¸½Ó״̬(±È½ÏÀäꤸÖƬ)
Tips on welding of Aluminized sheet in comparasion with cold rolled
steel strip
¸Ö°å
Steel Plate
¸Ö°åÓÃ;·ÖÀ༰¸÷¹ú¸Ö°åµÄ¹¤Òµ±ê×¼°üÀ¨ÈÕ¹¤±ê×¼¼°ÃÀ²ÄÊÔ±ê×¼
Type of steel Plate & Related JIS, ASTM and Other Major Industrial
Standards
¸Ö°åÉú²úÁ÷³Ì
Production Flow Chart
¸Ö°å¶©»õÐèÖª
Ordering of Steel Plate
²»Ðâ¸Ö
Stainless Steel
²»Ðâ¸ÖµÄ¶¨Òå Definition of Stainless Steel
²»Ðâ¸ÖÖ®·ÖÀ࣬Ä͸¯Ê´ÐÔ¼°ÄÍÈÈÐÔ
Classification, Corrosion Resistant & Heat Resistance of Stainless
Steel
Ìú¸õϵ²»Ðâ¸ÖƬ
Chrome Stainless Steel
ÂíÊÏÌå²»Ðâ¸Ö
Martensite Stainless Steel
µÍ̼ÂíÊÏÌå²»Ðâ¸Ö
Low Carbon Martensite Stainless Steel
º¬ÌúÌå²»Ðâ¸Ö
Ferrite Stainless Steel
Äø¸õϵ²»Ðâ¸Ö
Nickel Chrome Stainless Steel
ÊͳöÓ²»¯²»Ðâ¸Ö
Precipitation Hardening Stainless Steel
ÌúÃÌÂÁ²»Ðâ¸Ö
Fe / Mn / Al / Stainless Steel
²»Ðâ¸ÖµÄ´ÅÐÔ
Magnetic Property & Stainless Steel
²»Ðâ¸Ö²­¡¢¾íƬ¡¢Æ¬¼°°åÖ®ºñ¶È·ÖÀà
Classification of Foil, Strip, Sheet & Plate by Thickness
±íÃæ±£»¤½ºÖ½
Surface protection film
²»Ðâ¸ÖƬ²Ä³£ÓôúºÅ
Designation of SUS Steel Special Use Stainless
±íÃæ´¦Àí Surface finish
±¡¾íƬ¼°±¡Æ¬(0.3ÖÁ2.9mmºñ֮Ƭ)»úеÐÔÄÜ
Mechanical Properties of Thin Stainless Steel(Thickness from 0.3mm
to 2.9mm) – strip/sheet
²»Ðâ¸ÖƬ»úеÐÔÄÜ(301, 304, 631, CSP)
Mechanical Properties of Spring use Stainless Steel
²»Ðâ¸Ö – ÖÖÀ࣬¹¤Òµ±ê×¼£¬»¯Ñ§³É·Ý£¬Ìص㼰 Ö÷ÒªÓÃ;
Stainless Steel – Type, Industrial Standard, Chemical Composition,
Characteristic & end usage of the most commonly used Stainless Steel
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End Usage of Thinner Gauge
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Examples of End Usages of Strip, Sheet & Plate
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General Specification of Tension Annealed Stainless Steel Strips
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Heat-Resistance Stainless Steel
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Heat-Resistance Stainless Steel
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Chrome Heat Resistance Steel
Äø¸õÄÍÈȸÖ
Ni - Cr Heat Resistance Steel
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Special Heat Resistance Steel
¿¹Èȳ¬¼¶ºÏ½ð
Heat Resistance Super Alloy
ÄÍÈȲ»Ðâ¸Ö±ÈÖرí
Specific Gravity of Heat – resistance steel plates and sheets
stainless steel
²»Ðâ¸Ö²Ä¼°ÄÍÈȸֲıê×¼¶ÔÕÕ±í
Stainless and Heat-Resisting Steels
·¢ÌõƬ Power Spring Strip
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Power Spring Strip Classification and Materials
ÉÏÁ´·¢Ìõ Wind-up Spring
µ¹ºó²Á·¢Ìõ Pull Back Power Spring
Ô²Ãæ("²·Öñ")·¢Ìõ Convex Spring Strip
À­³ß·¢Ìõ Measure Tape
ħÊõÊÖ»· Magic Tape
ħÊõÊÖ»·³ß´çͼDrawing of Magic Tap
¶¨ÐÍ·¢Ìõ Constant Torque Spring
¶¨ÐÍ·¢Ìõ¼°ÉÏÁ¶·¢ÌõµÄÇý¶¯Á¦
Spring Force of Constant Torque Spring and Wing-up Spring
¶¨ÐÍ·¢ÌõµÄÐÎ×´¼°·­¶¯¹ý³Ì
Shape and Spring Back of Constant Torque Spring
¶¨ÐÍ·¢ÌõÇý¶¯Á¦¹«Ê½¼°´úºÅ
The Formula and Symbol of Constant Torque Spring
±ßÔµ´¦Àí Edge Finish
Ó²¶È Hardness
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High Carbon Tool Steel, Chemical Composition and Usage
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The Length of 1 Kg of Spring Steel Strip
SK-5 & AISI-301 ÿ¹«½ï³¤µÄÖØÁ¿/¹«½ï(À«100-200¹«Àå) Weight per one meter long
(kg) (Width 100-200mm)
SK-5 & AISI-301 ÿ¹«½ïÖ®³¤¶È(À«100-200¹«Àå) Length per one kg (Width
100-200mm)
SK-5 & AISI-301 ÿ¹«³ß³¤µÄÖØÁ¿/¹«½ï(À«2.0-10¹«Àå)
Weight per one meter long (kg) (Width 2.0-10mm)
SK-5 & AISI-301 ÿ¹«½ïÖ®³¤¶È(À«2.0-10¹«Àå)
Length per one kg (Width 2.0-10mm)
¸ß̼¸ÖƬ High Carbon Steel Strip
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Classification
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Classification According to Grain Structure
Óú¬Ì¼Á¿·ÖÀà – ¼´µÍ̼¸Ö¡¢ÖÐ̼¸Ö¼°¸ß̼¸Ö
Classification According to Carbon Contains
µ¯»ÉÓÃ̼¸ÖƬ
CarbonSteel Strip For Spring Use
ÀäÔþ״̬ Cold Rolled Strip
»Ø»ð״̬ Annealed Strip
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Hardened & Tempered Strip/ Precision – Quenched Steel Strip
±´ÊÏÌå¸ÖƬ Bainite Steel Strip
µ¯»ÉÓÃ̼¸ÖƬ²ÄÖ®±ßÔµ´¦Àí Edge Finished
´ã»ð¼Á
Quenching Media
̼¸Ö»Ø»ð Tempering
»Ø»ðÓеÍλػ𼰸ßλػð
Low & High Temperature Tempering
¸ßλػð
High Temperature Tempering
ÍË»ð Annealing
ÍêÈ«ÍË»ð Full Annealing
À©É¢ÍË»ð Diffusion Annealing
µÍÎÂÍË»ð Low Temperature Annealing
ÖÐ;ÍË»ð Process Annealing
Çò»¯ÍË»ð Spheroidizing Annealing
¹â»ÔÍË»ð Bright Annealing
´ã»ð Quenching
ʱ¼ä´ã»ð Time Quenching
°ÂÊÏÌúŒY»Ø»ð Austempering
ÂíÊÏÌúÌå´ã»ð Marquenching
¸ß̼¸ÖƬÓÃ; End Usage of High Carbon Steel Strip
ÀäÔþ¸ß̼¸Ö – ÈÕ±¾¹¤Òµ±ê×¼
Cold-Rolled (Special Steel) Carbon Steel Strip to JIS G3311
µç¶Æ½ðÊô¸ÖƬ Plate Metal Strip
¼ò½é General
µç¶Æ½ðÊôÀ¦Æ¬µÄÓŵã
Advantage of Using Plate Metal Strip
½ðÊôÀ¦Æ¬µç¶Æ²ã
Plated Layer of Plated Metal Strip
¶ÆÄø Nickel Plated
¶Æ¸õ Chrome Plated
¶Æ»ÆÍ­ Brass Plated
»ù²ã½ðÊô Base Metal of Plated Metal Strip
µÍ̼¸Ö»òÌú»ù²ã½ðÊô
Iron & Low Carbon as Base Metal
²»Ðâ¸Ö»ù²ã½ðÊô Stainless Steel as Base Metal
Í­»ù²ã½ðÊô
Copper as Base Metal
»ÆÍ­»ù²ã½ðÊô
Brass as Base Metal
Öá³ÐºÏ½ð Bearing Alloy
¼ò½é
General
Öá³ÐºÏ½ð – ÈÕ¹¤±ê×¼ JIS H 5401
Bearing Alloy to JIS H 5401
Îý»ù¡¢Ç¦»ù¼°Ð¿»ùÖá³ÐºÏ½ð±È½Ï±í
Comparison of Tin base, Lead base and Zinc base alloy for Bearing
purpose
Ò×ÈܺϽð Fusible Alloy
º¸½ÓºÏ½ð Soldering and Brazing Alloy
Èíº¸ Soldering Alloy
Èíº¸ºÏ½ð – ÈÕ±¾±ê×¼ JIS H 4341
Soldering Alloy to JIS H 4341
Ó²º¸ Brazing Alloy
ÆäËüº¸½Ó²ÄÁÏÇë²ÎÔÄÈÕ¹¤±ê׼Ŀ¼
Other Soldering Material
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Chapter Five Wire, Rod & Bar
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Classification and End Products of Wire/Rod
ÌúÏß(µÍ̼¸ÖÏß)ÈÕ¹¤±ê×¼ JIS G 3532
Low Carbon Steel Wires ( Iron Wire ) to JIS G 3532
¹âÏß(µÍ̼¸ÖÏß)£¬»ðÏß(ÍË»ðµÍ̼¸ÖÏß)£¬Ç¦Ë®Ïß (¶ÆпµÍ̼¸ÖÏß)¼°ÖÆÔ춤ÓõÍ̼¸ÖÏßÖ®´úºÅ¡¢¹«²î¼°±¸×¢
Ordinary Low Carbon Steel Wire, Annealed Low Carbon Steel Wire,
Galvanized low Carbon Steel Wire & Low Carbon Steel Wire for nail
manufacturing - classification, Symbol of Grade, Tolerance and
Remarks.
»úеÐÔÄÜ
Mechanical Properites
п°ü²ãÖ®ÖØÁ¿£¬Í­ÁòËáÑÎÊÔÑéÖ®ËáÏ´´ÎÊý¼°²âÊÔÓþíͲֱ¾¶
Weight of Zinc-Coating, Number of Dippings in Cupric Sulphate Test
and Diameters of Mandrel Used for Coiling Test
Àä³å¼°Àä¶ÍÓÃ̼¸ÖÏßÖ¦
Carbon Steel Wire Rods for Cold Heading & Cold Forging (to JIS
G3507)
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Classification, Symbol of Grade and Chemical Composition
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Diameter Tolerance, Ovality and Average Decarburized Layer Depth
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Cold Drawn Carbon Steel Shafting Bar
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AISI, JIS End Usage and Chemical Composition of Cold Drawn Carbon
Steel Shafting Bar
ÀäÀ­¸Ö°åÖØÁ¿±í
Cold Drawn Steel Bar Weight Table
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High Carbon Steel Wire Rod (to JIS G3506)
ÀäÀ­¸ß̼¸ÖÏß
Hard Drawn High Carbon Steel Wire
(to JIS G3521, ISO-84580-1&2)
»¯Ñ§³É·Ý·ÖÎö±í
Chemical Analysis of Wire Rod
Ïß¾¶¡¢¹«²î¼°»úеÐÔÄÜ(ÈÕ±¾¹¤Òµ±ê×¼ G 3521)
Mechanical Properties (JIS G 3521)
ÇÙÏß(ÈÕ±¾±ê×¼ G3522)
Piano Wires ( to G3522)
¼¶±ð£¬´úºÅ£¬Å¤ÇúÌØÐÔ¼°¿ÉÓÃÖ®Ïß²ÄÖ±¾¶
Classes, symbols, twisting characteristic and applied Wire Diameters
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Diameter, Tolerance and Tensile Strength
ÁÑÎÆÖ®ÈÝÐíÉî¶È¼°ÍÑ̼²ã
Permissible depth of flaw and decarburized layer
³£Óõĵ¯»É²»Ðâ¸ÖÏß-±àºÅ£¬ÌØÐÔ£¬±íÃæ´¦Àí¼°»¯Ñ§³É·Ý
StainlessSpring Wire – National Standard number, Charateristic,
Surface finish & Chemical composition
µ¯»É²»Ðâ¸ÖÏߣ¬Ïß¾¶¼°À­Á¦Áбí
Stainless Spring Steel, Wire diameter and Tensile strength of Spring
Wire
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Finish & Surface
¸÷ÖÖ²»Ðâ¸ÖÏßÔÚ²»Í¬´¦ÀíÀ­Á¦±È½Ï±í
Tensile Strength of various kinds of Stainless Steel Wire under
Different Finish
Ô²¾¶¼°Æ«Ô²¶ÈÖ®¹«²î
Tolerance of Wire Diameters & Ovality
¸õÄø²»Ðâ¸Ö¼°¿¹Èȸֵ¯»ÉÏß²Ä –
ÃÀ¹ú²ÄÑéѧ»á ASTM A313 – 1987
Chromium – Nickel Stainless and Heat-resisting Steel Spring Wire –
ASTM A313 – 1987
»¯Ñ§³É·Ý Chemical Composition
»úеÐÔÄÜ Mechanical Properties
305, 316, 321¼°347Ö®À­Á¦±í
Tensile Strength Requirements for Types 305, 316, 321 and 347
A1S1-302 ·¡¼¶Ïß²ÄÖ®À­Á¦±í
Tensile Strength of A1S1-302 Wire
ÈÕ±¾¹¤Òµ±ê×¼ – ²»Ðâ¸ÖµÄ»¯Ñ§³É·Ý(ÏÈÊý×Öºó×ÖĸÅÅÁÐ)
JIS – Chemical Composition of Stainless Steel (in order of number &
alphabet)
ÃÀ¹ú¹¤Òµ±ê×¼ – ²»Ðâ¸Ö¼°·ÀÈȸֲĵĻ¯Ñ§³É·Ý
(ÏÈÊý×Öºó×ÖĸÅÅÁÐ)
AISI – Chemical Composition of Stainless Steel & Heat-Resistant
Steel(in order of number & alphabet)
Ò׳µÌ¼¸Ö
Free Cutting Carbon Steels (to JIS G4804 )
»¯Ñ§³É·Ý Chemical composition
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Tolerance on Shape and Dimensions for Round Steel Bar, Square Steel
Bar, Hexagonal Steel Bar
Ò׳µ(¿ìÏ÷)²»Ðâ¸Ö Free Cutting Stainless Steel
Ò׳µ(¿ìÏ÷)²»Ðâ¸ÖÖÖÀà Type of steel
Ò׳µ(¿ìÏ÷)²»Ðâ¸ÖÀ­Á¦±í
Tensile Strength of Free Cutting Wires
Ö¦/°ôÎÞоĥ¹«²î±í (μ) (μ = 1/100 mm)
Rod/Bar Centreless Grind Tolerance
Ò׳µ²»Ðâ¸Ö¼°Ò׳µ¸ÖÖ®²»Í¬³ß´ç¼°Ó²¶È±È½Ï
Hardness of Different Types & Size of Free Cutting Steel
±âÏß¡¢°ëÔ²Ïß¼°ÒìÐÎÏß
Flat Wire, Half Round Wire, Shaped Wire and Precision Shaped Fine
Wire
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Manufacturing Method
Ó¦ÓòÄÁÏ
Material Used
Ìصã
Characteristic
ÓÃ;
End Usages
²»Ðâ¸Ö±âÏß¼°°ëÔ²Ïß³£ÓòÄÁÏ
Commonly used materials for Stainless Flat Wire & Half Round Wire
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Flat Wire Tolerance
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Square Wire Tolerance