lecture12-13.heat treatment of steel
DESCRIPTION
Heat Treatment of SteelTRANSCRIPT
METALLURGY I(RM-1420)
Dosen:
Fahmi Mubarok, ST., MSc.
Metallurgy Laboratory
Mechanical Engineering
ITS- Surabaya
2008
Pendahuluan
Heat Treatment
Hardenability
Tempering
Age Hardening
http://www.its.ac.id/personal/material.php?id=fahmi
LECTURE XII-XIIILECTURE XII-XIII
Fahmi Mubarok
xi 2Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Pendahuluan
Sifat mekanik tidak hanya tergantung pada komposisi kimia suatu paduan, tetapi juga teragntung pada strukturmikronya.
Suatu paduan dengan komposisi kimia yang sama dapat memiliki strukturmikro yang berbeda, dan sifat mekaniknya akan berbeda.
Strukturmikro tergantung pada proses pengerjaan yang dialami, terutama proses laku-panas yang diterima selama proses pengerjaan.
Proses laku-panas adalah kombinasi dari operasi pemanasan dan pendinginan dengan kecepatan tertentu yang dilakukan terhadap logam/paduan dalam keadaan padat, sebagai suatu upaya untuk memperoleh sifat-sifat tertentu.
Proses laku-panas pada dasarnya terdiri dari beberapa tahapan, dimulai dengan pemanasan sampai ke temperatur tertentu, lalu diikuti dengan penahanan selama beberapa saat, baru kemudian dilakukan pendinginan dengan kecepatan tertentu.
Fahmi Mubarok
xi 3Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Heat Treatment
Heat treatment
Dekat Keseimbangan Near-equilibrium
Tidak seimbang Non-equilibrium
Tujuan Umum • Melunakkan • Menghaluskan butir• Menghilangkan tegangan dalam • Memperbaiki machine ability
Macam Proses:Full Annealing (annealing)Stress relief Annealing Process annealingSpheroidizing NormalizingHomogenizing
Tujuan Umum
Mendapatkan kekerasan dan kekuatan yang lebih tinggi
Macam proces: Hardening MartemperingAustempering
Surface hardening• Carburizing • Nitriding • Cyaniding • Flame hardening• Induction hardening
Fahmi Mubarok
xi 4Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Heat Treatment
Fahmi Mubarok
xi 5Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Heat Treatment
• Full annealing (annealing)– Proses perlakuan panas untuk menghasilkan perlite yang kasar (coarse pearlite),
tetapi lunak dengan pemanasan sampai temperature austenitisasi dan didinginkan dengan dapur.
– Tujuan memperbaiki ukuran butir, melunakkan material sehingga keuletannya naik.
– Diterapkan pada baja yang mengalami deformasi plastis atau proces maching/forming
• Normalizing – Process perlakuan panas yang menghasilkan perlite halus, pendinginan dengan
udara, lebih keras dan kuat dari hasil anneal.• Spheroidizing
– Process perlakuan panas untuk menghasilkan struktur carbida berbentuk bulat (spheroid) pada matriks ferrite
– Akan memeperbaiki kemampuan di machining pada baja paduan %C tinggi – Methods:
• 24 hours below A1 line• Heating and cooling alternately between A1 line• Heating above A1 line
Fahmi Mubarok
xi 6Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Heat Treatment
• Process Annealing – Proses perlakuan panas untuk melunakkan dan menaikkan kembali keuletan
benda kerja agar dapat dideformasi lebih lanjut.– Low %C steel 1 hr @ 600-650°C (no austenizing)– Recrystallizes cold worked ferrite– Y.S and UTS drastically reduced
• Stress relief Annealing – Process perlakuan panas untuk menghilangkan tegangan sisa atau tegangan
dalam akibat proses sebelumnya. – Low %C Structural
Fahmi Mubarok
xi 7Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Normalizing and Full Annealing
Struktur mikro
Reason for full annealing
• Full annealed (1oC/min) • Normalized (10 oC/min)
Full annealed - ~1oC/min
Fahmi Mubarok
xi 8Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Spherodizing
Spheroidizing microstructure
• 24 hrs @ temp just under A1- Carbides will spherodize if held for long time <723oC- Softens and puts steel in free machining condition
• Sometimes buy steel in spherodized condition for good dimensioning on machining and then heat treat later to increase its strength
Fahmi Mubarok
xi 9Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Process Anneal
• 1 hr @ 600-650oC
• Recrystallizes cold worked ferrite
• Yield Strength and UTS drastically reduced
• Sometimes used to selectively treat localized cold worked areas
• Used in production of steel wire, nails etc.
• Up to 678oC with times up to 24 hrs; (use thermal blankets)
• Done to relieve residual or internal stresses– @ high temperature dislocations rearrange to relieve stresses (easier mobility @high
Temp -> lower Y.S)
– After cooling residual stress is reduced
• Less chance of fatigue, stress corrosion, etc.
• Digestors and other pressure vessels have to be stress relieved to remove residual stresses associated with welds
Stress relief
Fahmi Mubarok
xi 10Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Full Annealing, Normalizing , Process Anneal and Spheroidize
©2003 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
Fahmi Mubarok
xi 11Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Hardening
Hardening/ Pengerasan• Proses pelakuan panas untuk meningkatkan kekerasan, ketahanan aus atau
ketangguhan dengan kombinasi kekerasan
• Kekerasan sangat tergantung dari:
– Temperatur pemanasan (Austenitizing Temperature)
– Lama pada temperatur tersebut (Holding Time)
– Laju pendinginan (Cooling Rate)
– Komposisi kimia (%C and Alloying)
– Kondisi Permukaan (Surface Condition)
– Ukuran dan berat benda kerja (Size and Mass)
• Kekerasan maksimum didapatkan dari pembentukan fase martensite atau atau fase karbida pada struktur mikro baja
Fahmi Mubarok
xi 12Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Austenitizing Temperature
• Pemanasan pada temperatur austenitisasi: – 25-50 oC diatas temperatur A3 untuk baja hypoeutectoid– 25-50 oC diatas temperatur A1 untuk baja hypereutectoid
• Homogenity austenite, dilakukan dengan memberikan holding time pada temperature austenitisasi
• Laju pendinginan – Brine (air + 10 % garam dapur)– Air – Salt bath – Larutan minyak dalam air– Udara
• Komposisi Kimia• Kondisi permukaan• Ukuran dan berat benda kerja
Fahmi Mubarok
xi 13Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Cooling Rate
Fahmi Mubarok
xi 14Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Cooling Rate
Fahmi Mubarok
xi 15Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Size and Mass
Fahmi Mubarok
xi 16Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Size and Mass
Fahmi Mubarok
xi 17Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Hardenability
• Kekerasan baja sangat ditentukan oleh jumlah relatif martersite didalam strukturmikro dan juga ditentukan oleh kekerasan martensite
• Hardenability adalah kemampuan baja untuk dikeraskan dengan membentuk martensite dengan proses heat-treatment
• Metode Pengujian hardenability
– Jominy End Quench Test
– Grossman
Fahmi Mubarok
xi 18Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Parameter yang berpengaruh terhadap hardenability
1. The chemical composition (carbon + other elements)
- increasing wt.%C increases hardenability
- of the common alloying elements, only Co is known to decrease hardenability
2. The austenite grain size at the instant of quenching
- the larger the grain, the better (due to reduction in pearlite nucleation sites). depend on heating rate, holding time and cooling rate But, beware of growing the austenite grain!
3. The shape, size (thickness) and geometry of the part being quenched;
4. The quenchant used
Fahmi Mubarok
xi 19Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Procedure of Jominy Test
1. Prepare specimen with 1 inch round and 4 inch long2. Pre-heat the furnace to about 925 C.3. Place the Jominy specimen in the furnace and soak for one hour.4. Turn the water on at the Jominy sink. Adjust the free water column to about ½ inch.5. Remove the Jominy specimen from the furnace and place it in the fixture. Swivel
the baffle out of position so that the water impinges on the bottom of the specimen without wetting the sides of the specimen. Leave water to run for about 15 minutes.
6. Remove the Jominy specimen from the fixture and grind a smooth flat on the side of the specimen.
7. Mark points on the ground surface at an interval of 1/16 in. up to 2 in. distance from the quenched end.
8. Take readings at an interval of 1/16 in. by measuring the Rockwell C hardness at each point marked in the previous step.
9. Plot the data for Rockwell Hardness versus Distance from quenched end as shown in Page 21
Fahmi Mubarok
xi 20Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Jominy Test
A standard simple test adopted by the ASTM and the SAE- ASTM Method A255- SAE Standard J406
Fahmi Mubarok
xi 21Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Jominy Test
Fahmi Mubarok
xi 22Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Jominy Test
Fahmi Mubarok
xi 23Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Jominy Test
Fahmi Mubarok
xi 24Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Jominy TestJominy Test
Fahmi Mubarok
xi 25Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Grossman Test
Hardenability suatu baja diukur oleh diamater suatu baja yang strukturmikro tepat di intinya adalah 50 % martensite setelah dilakukan proses hardening dengan pendinginan tertentu.
Baja berbentuk silinder (panjang min 5xD) dengan variasi diameter dilakukan pengerasan dengan media pendingin tertentu.Hasil pengersan diuji metallography dan kekerasan, diameter baja tersebut yang intinya tepat 50 % martensite dianyatakan sebagai diameter kritis (D0), pada suatu laju pendinginan tertentu
Laju pendinginan dinyatakan dengan koefisien of severity (H)
Fahmi Mubarok
xi 26Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Grossman Test
Karena harga Do masih tergantung dengan laju pendinginan tertentu maka dirumuskan Harga diameter baja tersebut (50% martensite) dengan pendinginan Ideal (H=tak Hingga) yang disebut sebagai diameter ideal (Di)
Fahmi Mubarok
xi 27Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Grossman Test
Harga Di dapat di bandingkan antara satu baja dengan baja yang lainnya, harga ini menyatakan hardenability suatu baja dengan komposisi kimia tertentu
Fahmi Mubarok
xi 28Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Grossman Test
(a) Radial hardness for two alloys quenched in agitated water.
(b) Radial hardness for different diameters of SAE4140 steel quenched in agitated water.
Fahmi Mubarok
xi 29Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Tempering: Austempering and Martempering
• Hasil quench hardening -> menghasilkan produk yang keras tetapi getas• Menghasilkan tegangan sisa • Keuletan dan ketangguhan turun
Martempering (Marquenching)1. Austenitize the steel at the appropriate temperature2. Quench to a temperature just above the Ms
(usually, into an oil or molten salt bath)3. Hold in the quenchant to obtain uniform
temperature throughout the steel4. Cool at a moderate rate through the martensite
transformation region.
Mechanical properties of 1095 steel heat-treated by martempering and conventional quenching
Heat Treatment Hardness (HRC) Impact (ft-lb) Elongation in 1in (%)
Water quench and temper 53.0 12 0
Martemper and temper 53.0 28 0
Fahmi Mubarok
xi 30Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Martempering
Procedure Microstructure Result
Fahmi Mubarok
xi 31Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Temper Martensite
Microstrukture Transformation
Perubahan sifat mekanik
Fahmi Mubarok
xi 32Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Microstructure Temper Martensite
Pengaruh kadar karbon pada kekerasan martensit
Fahmi Mubarok
xi 33Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Austempering• An isothermal heat treatment designed to produce
bainite in plain-carbon steels• Purposes:
o improves strength and toughnesso decreases cracking and distortiono but takes a long time to complete
• Steps: 1. Austenitize the steel at the appropriate
temperature2. Quench to a temperature just above the Ms3. Hold isothermally in the quenching media
until graphite bainite transformation is complete
4. Cool to room temperature in air
Mechanical properties of 1095 steel heat-treated by austempering and conventional quenching.
Heat Treatment Hardness (HRC) Impact (ft-lb) Elongation in 1in (%)
Austemper 52.0 45 11
Water quench and temper 53.0 12 0
Fahmi Mubarok
xi 34Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Austempering
Fahmi Mubarok
xi 35Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Age Hardening
Fahmi Mubarok
xi 36Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Age Hardening
Fahmi Mubarok
xi 37Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Age Hardening
Fahmi Mubarok
xi 38Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Age Hardening
Fahmi Mubarok
xi 39Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Age Hardening
Fahmi Mubarok
xi 40Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Age Hardening
Fahmi Mubarok
xi 41Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Age Hardening
Fahmi Mubarok
xi 42Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Surface Hardening
Harden surface layers (0.1mm – 5mm)- To improve wear resistance- To improve resistance to high contact stresses- To improve fracture toughness- To improve fatigue resistance
Heat: • Induction• Flame• Laser• Light
Case Hardening:• Carburizing• Cyaniding• Carbonitriding• Nitriding
Components usually surface-hardened-Gears bearings -Valves -Shafts-Bearing races -Cams -Hand tools-Rolls -Machine tools -Sprockets
Fahmi Mubarok
xi 43Metallurgy Lab. Mech. Eng. Dept. ITS Surabaya
Surface Hardening
Induction Hardening
METALLURGY I(RM-1420)
Dosen:
Fahmi Mubarok, ST., MSc.
Metallurgy Laboratory
Mechanical Engineering
ITS- Surabaya
2008
LECTURE XIV
Surface Hardening-Methods
-Applications