Determine the hardness 0. 15" in from the surface of a 3" diam

Slides:

Advertisements

Similar presentations

Changing the Properties of Steels

Advertisements

Heat Treatment of Steel

HEAT TREATMENT OF STEEL

Tarnish and corrosion Dr. Waseem Bahjat Mushtaha Specialized in prosthodontics.

Survivors learn to adapt – Zufa Cenva Survivors learn to adapt – Zufa Cenva.

Heat Treatment of metals

UNIT 3: Metal Alloys Unit 3 Copyright © 2012 MDIS. All rights reserved. 1 Manufacturing Engineering.

PART 2 : HEAT TREATMENT. ALLOY SYSTEMS STEELS ALUMINUM ALLOYS TITANIUM ALLOYS NICKEL BASE SUPERALLOYS.

Group 2 Steels: Medium Carbon Alloy Steels (0.25 – 0.55 %C)

CHAPTER 16: CORROSION AND DEGRADATION

Surface Technology Part 4 Corrosion

Stainless Steels Stainless steels are iron base alloys that contain a minimum of approximately 12% Cr, the amount needed to prevent the formation of rust.

Corrosion & Associated Degradation

Heat Treatment of Metals

MATERIAL SCIENCE. Introduction  “A combination of heating and cooling operation, timed and applied to a metal or alloy in the solid state in a way that.

Bachelor of Technology Mechanical

Thermal Processing of Metal Alloys

Annealing Processes All the structural changes obtained by hardening and tempering may be eliminated by annealing. to relieve stresses to increase softness,

Metal Alloys: Their Structure & Strengthening by Heat Treatment

Heat Treatment.

Metals. In the Construction Industry we use metals in the many areas such as; Structural Claddings Architectural Systems Building Service.

Anandh Subramaniam & Kantesh Balani

IE210 Production Engineering Heat Treatment n Annealing n Martensite Formation in Steel – Time-Temperature-Transformation Curve – Heat Treatment Process.

Last class - Ceramic tools Cast irons Last class - Ceramic tools Cast irons Today - Case hardening Hardenability test Quenching design Today - Case hardening.

- heating on at required temperature - dwell at temperature - cooling

Annealing, Normalizing, and Quenching of Metals

MATSE 259 EXAM 3 REVIEW SESSION 1. Exam Structure: Multiple choice (same as previous exams), hours, 25 questions 2. Please write your student I.D. on the.

B. Titanium-based Alloys Titanium is hcp at room temperature – and transform to the bcc structure on heating to 883 o C. Alloying elements are added to.

Forging new generations of engineers

Corrosion (Rusting) The annual cost of corrosion to the U.S. economy is $350 billion!

Every endeavor is a game, is it not? – Iblis Ginjo Every endeavor is a game, is it not? – Iblis Ginjo.

ISSUES TO ADDRESS... Transforming one phase into another takes time. How does the rate of transformation depend on time and T? 1 How can we slow down the.

HEAT TREATMENT OF STEEL

1 Teaching Innovation - Entrepreneurial - Global The Centre for Technology enabled Teaching & Learning, N Y S S, India DTEL DTEL (Department for Technology.

Anandh Subramaniam & Kantesh Balani

Materials Performance Corrosion/SCC,EAC, etc.

Numbering Systems for Alloys

Fe-Carbon Diagram, TTT Diagram & Heat Treatment Processes

Definition of Corrosion

Engineering Chemistry CHM 406

PIPING MATERIAL MODULAR FABRICATION YARD PIPING MODULE – PART II

HEAT TREATMENT -I.

Corrosion Basics Chapter 4 – NACE Book Materials Selection - Metals

Heat Treatment of Steel

Thermal Processing of Metal Alloys

Definition of Corrosion

Yield strength: the elongation of a mat'l

Corrosion Objectives Corrosion process Environmental factors

HEAT TREATMENT PROCESS

The Consequence of Element Alloying.

Heat Treatment Processes In Gear Design

Calderglen High School

 Bulk and Surface Treatments  Annealing, Normalizing, Hardening, Tempering  Hardenability HEAT TREATMENT.

HEAT TREATMENT Improves properties of materials as it modifies the microstructure. Service performance of gears, cams, shafts, tools, dies and molds.

Which of the following is a single phase that can occur in steels:

Microstructure of Steel

Strain around solute atoms

ME ENGINEERING MATERIALS AND METALLURGY

Heat Treatment of Metals

Hardenability Problem:

Group 2 Steels: Medium Carbon Alloy Steels (0.25 – 0.55 %C)

Electrochemistry.

The universe is a playground of improvisation – it follows no external pattern – Cogitor Reticulus.

Corrosion & Associated Degradation

Chapter 6: Metals & alloys Part 2

ISSUES TO ADDRESS... Why does corrosion occur ? 1 What metals are most likely to corrode? How do temperature and environment affect corrosion rate? How.

Quench severities.

Heat Treatment of Metals

Boriding Boronizing, also known as boriding, is a case hardening diffusion process where boron atoms are diffused into the surface of a metal component.

Prepared By: Mr. Prashant S. Kshirsagar (Sr.Manager-QA dept.)

Presentation transcript:

Determine the hardness 0. 15" in from the surface of a 3" diam Determine the hardness 0.15" in from the surface of a 3" diam. 4640 shaft which has been quiet oil-quenched.

Determine the hardness 0. 15" in from the surface of a 3" diam Determine the hardness 0.15" in from the surface of a 3" diam. 4640 shaft which has been quiet oil-quenched. Use the appropriate set of bar size/quench curves from the website.

Determine the hardness 0. 15" in from the surface of a 3" diam Determine the hardness 0.15" in from the surface of a 3" diam. 4640 shaft which has been quiet oil-quenched. Use the appropriate set of bar size/quench curves from the website. The curve below is for 4640.

What are the possibilities for microstructures in the HAZ for: a hardened steel a precipitation hardened alloy

What are the possibilities for microstructures in the HAZ for: a hardened steel a precipitation hardened alloy

Not a description of a type of corrosion cell: electrolyte concentration b. dissimilar metals c. non-homogeneous stress distribution d. active-passive regions e. none of the above

Not a way to suppress corrosion: use a carbon steel filler rod when welding stainless steel b. paint the metal c. anneal the metal piece d. make the metal electrically negative e. use a steel containing a considerable amount of chromium

The microcell mainly responsible for corrosion in sensitized stainless steels consists of which of these anode/cathode combinations: Fe metal/Cr metal b. low Cr content solid solution/high Cr content solid solution c. Fe-Cr solid solution/Cr7C3 d. grain boundary/central portion of grain e. high Cr content solid solution/low Cr content solid solution

Not an example of a corrosion microcell: a deeply scratched galvanized coating on steel b. bulk of a grain/grain boundary region c. solid solution matrix/precipitate particles d. segregation e. grain A/neighboring grain B

A way to "un-sensitize" a sensitized austenitic stainless steel part cold work it b. pack carburize it c. harden and temper it d. hold it at an appropriately high temperature for an extended period of time e. plate it with chromium

Define: Alcohol Acid Ester Amine Amide

Define: Alcohol ---- OH Acid Ester Amine Amide

Define: Alcohol ---- OH Acid ---- COOH Ester Amine Amide

Define: Alcohol ---- OH Acid ---- COOH Ester –COO– Amine Amide

Define: Alcohol ---- OH Acid ---- COOH Ester –COO– Amine ---- NH2 Amide

Define: Alcohol ---- OH Acid ---- COOH Ester –COO– Amine ---- NH2 Amide –CONH–

Define: Condensation reaction Addition reaction Polymerization