Presentation is loading. Please wait.

Presentation is loading. Please wait.

Mechanical properties Tensile test Hardness Toughness Fracture toughness Fatigue test Creep resistance Tensile test Hardness Toughness Fracture toughness.

Published byAshlie Norman Modified over 8 years ago

Similar presentations

Presentation on theme: "Mechanical properties Tensile test Hardness Toughness Fracture toughness Fatigue test Creep resistance Tensile test Hardness Toughness Fracture toughness."— Presentation transcript:

1 Mechanical properties Tensile test Hardness Toughness Fracture toughness Fatigue test Creep resistance Tensile test Hardness Toughness Fracture toughness Fatigue test Creep resistance

2 Tensile test Yield strength Tensile strength Ductility Yield strength Tensile strength Ductility

3 Tensile test Yield strength Tensile strength Ductility Yield strength Tensile strength Ductility

4 Tensile test Yield strength Tensile strength Ductility Yield strength Tensile strength Ductility

5 Tensile test Yield strength Tensile strength Ductility Yield strength Tensile strength Ductility

6 Tensile test Yield strength Tensile strength Ductility Yield strength Tensile strength Ductility

7 Yield (ksi) Tensile (ksi) Elongation Steels 30-250 60-250 65-2 % Yield (ksi) Tensile (ksi) Elongation Steels 30-250 60-250 65-2 % For metals: in general, increase strength, decrease ductility For metals: in general, increase strength, decrease ductility

8 Yield (ksi) Tensile (ksi) Elongation Steels 30-250 60-250 65-2 % Al alloys 5-80 13-90 45-4 Ni alloys 15-170 50-210 60-5 Yield (ksi) Tensile (ksi) Elongation Steels 30-250 60-250 65-2 % Al alloys 5-80 13-90 45-4 Ni alloys 15-170 50-210 60-5

9 Yield (ksi) Tensile (ksi) Elongation Steels 30-250 60-250 65-2 % Al alloys 5-80 13-90 45-4 Ni alloys 15-170 50-210 60-5 Ceramics - 20-380 0 Ceramics are..........? Yield (ksi) Tensile (ksi) Elongation Steels 30-250 60-250 65-2 % Al alloys 5-80 13-90 45-4 Ni alloys 15-170 50-210 60-5 Ceramics - 20-380 0 Ceramics are..........?

10 Yield (ksi) Tensile (ksi) Elongation Steels 30-250 60-250 65-2 % Al alloys 5-80 13-90 45-4 Ni alloys 15-170 50-210 60-5 Ceramics - 20-380 0 Brittle does not mean weak Yield (ksi) Tensile (ksi) Elongation Steels 30-250 60-250 65-2 % Al alloys 5-80 13-90 45-4 Ni alloys 15-170 50-210 60-5 Ceramics - 20-380 0 Brittle does not mean weak

11 Yield (ksi) Tensile (ksi) Elongation Steels 30-250 60-250 65-2 % Al alloys 5-80 13-90 45-4 Ni alloys 15-170 50-210 60-5 Ceramics - 20-380 0 Thermoplastics - 1-12 5-1000 Thermosetting - 5-25 0 Yield (ksi) Tensile (ksi) Elongation Steels 30-250 60-250 65-2 % Al alloys 5-80 13-90 45-4 Ni alloys 15-170 50-210 60-5 Ceramics - 20-380 0 Thermoplastics - 1-12 5-1000 Thermosetting - 5-25 0

12 Hardness Resistance to indentation Hardness Resistance to indentation

13 Hardness Resistance to indentation Greater hardness gives higher hardness nos. Hardness Resistance to indentation Greater hardness gives higher hardness nos.

14 Example - quenched plain carbon steels

15 Correlation betwn strength & hardness Harder means stronger for metals & alloys Correlation betwn strength & hardness Harder means stronger for metals & alloys

16 Toughness Resistance to being clobbered Toughness Resistance to being clobbered

17 Toughness Resistance to being clobbered Impact test measures energy absorbed upon fracture measure of toughness Toughness Resistance to being clobbered Impact test measures energy absorbed upon fracture measure of toughness

18 Toughness Resistance to being clobbered Toughness Resistance to being clobbered

19 Impact test measure impact energy at different temperatures Impact test measure impact energy at different temperatures

20 Impact test measure impact energy at different temperatures Impact test measure impact energy at different temperatures

Download ppt "Mechanical properties Tensile test Hardness Toughness Fracture toughness Fatigue test Creep resistance Tensile test Hardness Toughness Fracture toughness."

Similar presentations

MECHANICAL PROPERTIES OF MATERIALS

MECHANICAL PROPERTIES OF MATERIALS
CHE 333 Class 18 Fracture of Materials.

CHE 333 Class 18 Fracture of Materials.
Temperature, Hardness and Toughness

Temperature, Hardness and Toughness
MatSE 259 Exam 1 Review Session 1.Exam structure – 25 questions, 1 mark each 2.Do NOT forget to write your student I.D. on the answer sheet 3.Exams are.

MatSE 259 Exam 1 Review Session 1.Exam structure – 25 questions, 1 mark each 2.Do NOT forget to write your student I.D. on the answer sheet 3.Exams are.
Grain Boundaries Ni-Base Superalloy Waspalloy 50µm high-angle grain boundary (  >15°) low-angle grain boundary.

Grain Boundaries Ni-Base Superalloy Waspalloy 50µm high-angle grain boundary (  >15°) low-angle grain boundary.
IMPACT TEST EXPERIMENT # 7 Instructor: M.Yaqub. IMPACT LOAD  Shock load or sudden load is referred as impact load.  In order to select a material to.

IMPACT TEST EXPERIMENT # 7 Instructor: M.Yaqub. IMPACT LOAD  Shock load or sudden load is referred as impact load.  In order to select a material to.
1 ) ) Kingdom of Saudi Arabia, Ministry of Higher Education, Jazan University, Preparatory Year Deanship. Practical Production Tech. & Workshop.

1 ) ) Kingdom of Saudi Arabia, Ministry of Higher Education, Jazan University, Preparatory Year Deanship. Practical Production Tech. & Workshop.
MECHANICAL PROPERTIES OF MATERIALS

MECHANICAL PROPERTIES OF MATERIALS
Chapter 7 Mechanical Properties of Solids.

Chapter 7 Mechanical Properties of Solids.
1 Heat Treat and Mechanical Testing Approved for Public Release.

1 Heat Treat and Mechanical Testing Approved for Public Release.
MSE 201 – Laboratory IThe University of Tennessee Materials Science and Engineering Kurt Johanns MSE 201 - Laboratory I Mechanical Properties of Metals.

MSE 201 – Laboratory IThe University of Tennessee Materials Science and Engineering Kurt Johanns MSE Laboratory I Mechanical Properties of Metals.
Materials Engineering – Day 2

Materials Engineering – Day 2
Engineering materials

Engineering materials
Design Materials What you see - What you get. Design materials Function is supreme –Perform to requirements –Durability – life span –Product life cycle.

Design Materials What you see - What you get. Design materials Function is supreme –Perform to requirements –Durability – life span –Product life cycle.
MATERIAL USED SHIPBUILDING.

MATERIAL USED SHIPBUILDING.
Mechanical Properties of

Mechanical Properties of
Conceptual Designs. Most Commonly used Metals Plain carbon steels –Available in all structural forms, thin sheets, coated or uncoated, cold formed, hot.

Conceptual Designs. Most Commonly used Metals Plain carbon steels –Available in all structural forms, thin sheets, coated or uncoated, cold formed, hot.
ENGR 225 Section 3.1 - 3.8.

ENGR 225 Section
LECTURER 3 Fundamental Mechanical Properties (i)Tensile strength

LECTURER 3 Fundamental Mechanical Properties (i)Tensile strength
Hierarchy of Iron Alloys. Numbering System Low Carbon Steel.

Hierarchy of Iron Alloys. Numbering System Low Carbon Steel.

Similar presentations

Ads by Google