banner
Home » astm a516 grade 70 elastic modulus
Product Categories

astm a516 grade 70 elastic modulus

1.Wall Thickness:1.2-150mm
2.Size:1000*2000mm / 1220*2440mm / 1250*2500mm / 1500*3000mm
3.Packaging Details:Standard export seaworthy packing or as required.
4.Application: construction decoration and industry instruments

Send Inquiry Chat Now

astm a516 grade 70 elastic modulus 


astm a516 grade 70 elastic modulus CHARACTERISTICS

ASTM A516 Carbon Steel, Grade 70 - MatWeb

ASTM A516 Carbon Steel, Grade 70 ... Typical of ASTM Steel Mechanical Properties Metric English Comments; Tensile Strength, Ultimate 485 - 620 MPa 70300 - 89900 psi Tensile Strength, Yield 260 MPa 37700 psi Elongation at Break 17 % 17 % in 200mm 21 % 21 % in 50mm Modulus of Elasticity 200 GPa 29000 ksi Typical Carbon ...

Contact Supplier

ASTM A516 Carbon Steel, Grade 70 - MatWeb

ASTM A516 Carbon Steel, Grade 70 ... SA516, ASTM A285 Vendors Available Properties; Density, Typical of ASTM Steel; Tensile Strength, Ultimate; Tensile Strength, Yield; Elongation at Break, in 200mm; Elongation at Break, in 50mm; Modulus of Elasticity, Typical Carbon Steel; Bulk Modulus, Typical for Steel; Poissons Ratio, Typical Carbon Steel ...

Composition · Property

Contact Supplier

eFunda Properties of Carbon Steel ASTM A516 Grade 70

eFunda Properties of Carbon Steel ASTM A516 Grade 70. Carbon Steel ASTM A516 Grade 70 Directory ... Elastic Modulus (GPa) 190-210 25 Glossary. ... Materials » Alloys » Steel » Alloy Steel » ASTM A517 Grade H.

Contact Supplier

SA-516-70 at Elevated Temperatures - Metal and Metallurgy ...

Mar 08, 2004 · The Modulus of Elasticity at different temperature for carbon steel is as follws - room temp 30 X 10*6 psi 400 deg F 27.0 800 deg F 22.5 1000 deg F 19.5 1200 deg F 18.0 I was able to locate actual yield strength data as a function of test temperature for SA 516 Gr 70 plate material, 3/4" - …

You will find that information in the ASME Boiler and Pressure Vessel Code, Section II, Subsection D. Steve Braune Tank Industry Consultants tankindustry1There is some additional data that might be of use from Dieter,"Mechanical Metallurgy" using the assumption that SA 516 Grade 70 falls under "carbon steel" see page 335; The Modulus of Elasticity at different temperature for carbon steel is as follws - room temp 30 X 10*6 psi 400 deg F 27.0 800 deg F 22.5 1000 deg F 19.5 1200 deg F 18.0 I was able to locate actual yield strength data as a function of test temperature for SA 516 Gr 70 plate material, 3/4" - 2" in thickness. This yield strength data is from a Bethlehem Lukens publication on SA 516 and SA 387 steel plates; @ 100 deg F 55 ksi 200 deg F 50 400 deg F 40 600 deg F ~37 800 deg F ~34 1000 deg F ~30 1200 deg F ~202Hi metengr, I am intereted to see the related info in Dieter but I have an old edition, 1961, so maybe the info is not there. At least it is not on page 335. In what chapter is it located? Jesus is THE life, Leonardmetman; It is the 2nd Edition, Part III, in Chapter 9 - The Tension Test. PS; I hope having the 1st Edition is not giving away your age (haha).metengr, Thanks. Would you believe that my anchient edition even has "parts?" OK you whippersnapper - help me out here a bit I have been trying to convince a young coworker draftsman that stiffness is largely independent of alloy/temper/strength and Dieter touches on it in the article you referenced. I showed Mr. M the list of physical/mechanical properties of elements in the front of metals handbook where E is a property of the element (at std temperature)with NO regard to condition (alloy/temper/strength). The article in Dieter might be more convincing but I need to be clear about the terminology that Dieter uses. "...it follows that the modulus of elasticity is one of the most structure-insensitive of the mechanical properties." Apparently Dieter is saying LATTICE structure as in BCC/FCC/TETRAGONAL etc? OK - just before this, Dieter says, "The modulus of elasticity is determined by the binding forces between atoms. Since these forces cannot be changed without changing the basic nature of the material, it follows that the modulus..." Is Dieter referring to the theoretical cohesive strength of the material in this sentence? And if so, how does this relate to UTS vs E? For example; E for steel is largely independent of tetragonal structure vs BCC yet UTS is very much dependent upon one or the other or both of these structures. Let's not get sidetracked with YS or plastic instability right now because plastic slip is a very separate mechanism from elastic deformation on the one hand (E) and total separation (UTS)of the "..binding forces.." that Dieter alludes to if in fact Dieter means cohesive strength and maybe that is where my confusiono is. Probably this old coger needs to completely re-read Dieter plus Richard's Engineering Materials Science plus Reed-Hill's Physical Metallurgy Principles but I probably won't live that long. Sorry guys as this probably deserves a separarte thread but then it would lose some flavor and I might get busted as a student disguised as a has-been. Jesus is THE life, Leonardmetman- you are exactly right, the binding forces btw atoms give the elastic modulus. And likely you wont be able to convince the young guy that you are right. If I remember MY101 correctly, there is a 1st principals derivation of modulus and why it doesnt change significantly with changes in heat-treat/alloying/strength. I'll see if Ive got it in any of my notes. I think its directly related to sub atomic forces and atom-atom bonding w/in the lattice independant of the shape. The reason strength is affected by temper/alloy/etc.. is that strength relates directly to dislocation movement. After the yield point the material's properties are now controlled by different mechanisms. I am also interested in having a good logical proof of this available. I am continually confronted by people who mistake stiffness for strength. I think we could all think really hard and work back to when we were in school and come up with a good derivation we can make it a FAQ. nick1The physical basis of material properties like Young’s modulus can be understood by examining materials on the atomic scale. There are two main things that influence the value of the modulus 1.) The atomic microstructure 2.) The interatomic bonds. Different values are obtained for the elastic modulus depending upon the crystallographic direction in which we measure E. This directional variation in properties is known as anisotrophy. For example, the elastic modulus for a single crystal of iron varies between 41x106 psi and 19x106 psi, depending on the direction of measurement. Tabulated values of E are usually average values taken from polycrystalline materials with a random orientation of the individual grains. ATOMIC MICROSTRUCTURE All solid materials may be classified as either crystalline or amorphous based upon the way in which the atoms arrange themselves. Crystalline materials are characterized by long range order. This means that the atoms arrange themselves into regular, repeating, three-dimensional patterns. The crystals formed by these rather large groups of atoms are called grains. An example of a crystalline structure would be the zinc coating on a galvanized steel sheet. Amorphous solids do not possess any long range order, although they may have short range order. Glass is a good example of this type of material. The fact that crystalline solids have long range order means that the atom or group of atoms that make up the basic unit of the material must have identical surroundings. If we model the atoms as hard spheres, then we can think of packing them together in a plane as though we were racking a set of billiard balls for a game of pool. The balls are arranged so that they take up the least amount of space. In this two-dimensional example this type of plane is called a close-packed plane, and the directions along which the balls touch are called close-packed directions. We could extend this pattern by adding balls until it completely covers the pool table. The important thing to notice is that the balls are arranged in a regular repeating two dimensional pattern. Now suppose that we start adding balls on top of the first plane that we already arranged. How we position the second plane of atoms is important, because it will determine the type of three dimensional structure that will be produced. The depressions that are formed in the first plane of atoms where three atoms touch are ideal locations for the atoms in the second layer to sit. By dropping atoms into these convenient “seats” we can build a second close packed plane on top of the first one. By adding more planes on top of the previous ones in this way, we find that we can produce a three dimensional structure where the atoms take up the least amount of space. This is an example of a close packed structure. FCC is one microstructure that can be formed using this type of construction. ATOMIC BONDS The strength of an interatomic bond depends upon the forces that exist between the bonding atoms. From a theoretical standpoint we can determine the force F between two atoms for any separation distance r from the relationship F = dU/dr where U(r) is the interatomic potential function. F is zero at the equilibrium point r = ro. If the atoms are pulled apart to a separation of (r - ro), a resisting force appears. For small displacements (r - ro) the resisting force is proportional to the displacement for all materials in both tension and compression. The stiffness S of the resulting bond is given by S = dF/dr = d^2U/dr^2 If the bond is not stretched too far, S is approximately constant and is given by So = (d^2U/dr^2) evaluated at r = ro So the bond behaves in a linear elastic manner. This is the physical origin of Hooke’s Law. A narrow, steep potential well corresponds to a stiff material with a high modulus. A broad, shallow potential well represents a material with a low modulus. I can walk you through a simple example of this type of calculation if you like to show you the relationship between the modulus, the atomic microstructure, and the bonding. Maui3"For example, the elastic modulus for a single crystal of iron varies between 41x106 psi and 19x106 psi, depending on the direction of measurement." Please note that these values are 41,000,000 psi and 19,000,000 psi, respectively. MauiWOW thanks a bunch Maui... Now I'm going to propose the next part The reason that alloying doesnt significantly change modulus is that for most metals the alloying element do not change the bulk poly x-tal structure. And dont alter the overall atomic bonds. (or maybe enough of them) I'm not sure why heat treat condition doesn't affect modulus thou. nickNickE, Because you still have a polycrystal composed primarily of iron atoms. The polycrystalline nature provides an "averaging" effect so that the bulk modulus is not dependent on the different modulus tensor values. The heat treatment doesn't change the fact that iron atoms bound to each other have similar atom-atom bond strengths. Regards, Cory Please see FAQ731-376 for tips on how to make the best use of Eng-Tips Fora.1

Contact Supplier

ASTM A516 Grade 70 and ASME SA516 Grade 70 Carbon …

Masteel supply high quality carbon steel plate for boiler and pressure vessel fabrication which is ideally suited to the high standards set by the oil, gas and petrochemical industry - this is why we stock an extensive range of carbon plates according to ASTM A516 Grade 70 and ASME SA516 Grade 70.

Author Masteel UK Ltd

Contact Supplier

Tables of Material Properties MechaniCalc

The tables below provide properties of common engineering materials. The material property data provided are intended to be representative of the material described.

Contact Supplier

eFunda Glossary Materials Alloys Carbon Steel ASTM ...

Another common designation of ASTM A516 Grade 70 carbon steel is UNS K02700. Steel is the common name for a large family of iron alloys. Steels can either be cast directly to shape, or into ingots which are reheated and hot worked into a wrought shape by …

Contact Supplier

ASME SA285 Grade C Middle or low strength carbon steel ...

ASME SA285 Grade C Middle or low strength carbon steel plates ... Modulus of Elasticity Tension. 30. Modulus of Elasticity Torsion. 11. ASME SA 285/SA 285M and ASTM A 285/A 285M difference ... How about the steel chemical composition of ASTM A516 Grade 70 steel plates ?

Contact Supplier

ASTM A516 Grade 60 and ASME SA516 Grade 60 Carbon …

Masteel stock a wide range of carbon steel plates according to ASTM A516 Grade 60 and ASME SA516 Grade 60, ideal for boiler and pressure vessel fabrication where improved notch toughness is important. technical details on these alloys are found herein.

Author Masteel UK Ltd

Contact Supplier

Steel Properties (US) - WebCivil

Gr.50 50 70-100 Gr.55 55 70-100 high strength Low-Alloy ... Modulus of elasticity 29,000 ksi Shear Modulus 11,200 ksi Thermal Coefficient ... the availability of which should be confirmed prior to specification Preferred material specification Applicable ASTM Specifications for Plates and Bars Applicable ASTM Specifications ...

Contact Supplier

a572 steel modulus of elasticity physical properties ...

ASTM A516 STEEL PLATES - Chemtech alloys pvt ltd. Chemtech alloys pvt ltd is biggest stockist ... Gr. 70 Cold Rolled Plates Mechanical Physical Properties, ASTM ... astm a516 grade 70 modulus of elasticity, ... WIDE FLANGE SHAPES. Sizes and Section Properties Wide Flange Shapes (ASTM A 6 Inch Series) ...

Contact Supplier

Technical Note — Fracture Toughness of A516 Grade 60 …

Technical Note — Fracture Toughness of A516 Grade 60 Steel ... A ASTM A516 GRADE 70 STEEL <E • 5x10^ sec'l D ABS-C STEEL (VARIOUS STRAIN RATES) 1,1,1.1 ... E = modulus of elasticity Results and Discussion The yield strength behavior is given in Fig. 1. The results for two

Contact Supplier

a572 steel modulus of elasticity physical properties ...

ASTM A516 STEEL PLATES - Chemtech alloys pvt ltd. Chemtech alloys pvt ltd is biggest stockist ... Gr. 70 Cold Rolled Plates Mechanical Physical Properties, ASTM ... astm a516 grade 70 modulus of elasticity, ... WIDE FLANGE SHAPES. Sizes and Section Properties Wide Flange Shapes (ASTM A 6 Inch Series) ...

Contact Supplier

ASTM Grade 70-50-05 (ISO 500-7, EN-JS 1050) Ductile Cast ...

ASTM grade 70-50-05 is ductile cast iron in the as-fabricated (no temper or treatment) condition. 70-50-05 is the ASTM designation for this material. 500-7 is the ISO numeric designation. The graph bars on the material properties cards below compare ASTM grade 70-50-05 to cast irons (top), all iron alloys (middle), and the entire database ...

Contact Supplier

ASTM A516 Grade 60 and ASME SA516 Grade 60 Carbon …

Masteel stock a wide range of carbon steel plates according to ASTM A516 Grade 60 and ASME SA516 Grade 60, ideal for boiler and pressure vessel fabrication where improved notch toughness is important. technical details on these alloys are found herein.

Contact Supplier

Technical Note — Fracture Toughness of A516 Grade …

Technical Note — Fracture Toughness of A516 Grade 60 Steel ... A ASTM A516 GRADE 70 STEEL <E • 5x10^ sec'l D ABS-C STEEL (VARIOUS STRAIN RATES) 1,1,1.1 ... E = modulus of elasticity Results and Discussion The yield strength behavior is given in Fig. 1. The results for two

Contact Supplier

AISI A514 Grade B Alloy Steel (UNS K11630) - AZoM

Alloy steels are designated by AISI four-digit numbers. They comprise different kinds of steels which exceed the composition limits of Mn, C, Mo, Si, Ni, Va, and B set for carbon steels. They respond more quickly to mechanical and heat treatments than carbon steels.

Contact Supplier

ASTM A570 GR50 Hot-rolled Carbon structural steel,ASTM ...

ASTM A570 GR50 is a kind of hot-rolled carbon structural steel . There are seven levels or grades in the standard ASTM A570 .They are ASTM A570 GR30, A570 GR33, A570 GR36, A570 GR40, A570 GR45, A570 GR50, A570 GR55 .

Contact Supplier

a572 grade 50 steel young's modulus chemical composition ...

a572 grade 50 steel young's modulus chemical composition specification can be offered by KATALOR ,we are professional a572 grade 50 steel young's modulus chemical composition suppliers and manufacturer in China, if you need a572 grade 50 steel young's modulus chemical composition price and application ,please contact us.

Contact Supplier

G3101 SM41B steel plate, Grade SM41B, SM41B steel

G3101 SM41B steel is a kind of material for boiler and pressure vessel steel. So, G3101 SM41B steel is used above all for manufacturing boilers, pressure vessels and pipes transporting hot liquids. G3101 SM41B steel is used for general purpose structural applications of medium strength (60 …

Contact Supplier

ASTM A216 Grade WCB Cast Steel : MakeItFrom

ASTM A216 grade WCB is a type of ASTM A216 cast steel. Cited properties are appropriate for the annealed condition. The graph bars on the material properties cards below compare ASTM A216 grade WCB to cast carbon steels (top), all iron alloys (middle), and the entire database (bottom).

Contact Supplier

ASTM A53 Young's Modulus - ASTM (testing materials) …

Jun 05, 2007 · The bridges are for over some seasonal creeks and deep gullies, and wiil be wide enough for only snow machines and All Terrain Vehicles. I am used to designing with standard structural steel, and am having great difficulty in finding the appropirate Young's Modulus to use for Schedule 40 pipe.

Contact Supplier

ASTM A633-E, Grade A633-E, A633-E steel - BEBON STEEL

BEBON STEEL > ASTM > - ASTM A633-E, Grade A633-E, A633-E steel. ASTM A633-E, Grade A633-E, A633-E steel. ASTM A633-E steel is a kind of material for boiler and pressure vessel steel. So, ASTM A633-E steel is used above all for manufacturing boilers, pressure vessels and pipes transporting hot liquids. ... Elastic Modulus (GPa) 190-210. 25 ...

Contact Supplier

ASME SA516 ASTM A516 Gr. 60 - Brown McFarlane

About ASME SA516 Grade 60 / ASTM A516 Grade 60 Boiler Plate Steel. There are large stocks of boiler plates certified to ASTM A516 Gr. 60 and ASME SA516 Gr. 60 in Brown McFarlane’s warehouse facilities. A range of specially manufactured hydrogen induced crack resistant steel in SA / A516 Gr. 60 HIC is also available from stock.

Contact Supplier

st52 3 young modulus - sheetsteelplus

A516 Grade 70 steel yield strength; ... Manufacturing Today› GeneralMar 15, 2016· I am looking for a equivalent To the German steel grade ST52-3. I came up with ASTM A572GR50. My local supplier will not confirm that this is a equal ... all steel has similar Young's modulus. ... Modulus of Elasticity, Young's Modulus For Common Engineering ...

Contact Supplier

Standard Specification for Pressure Vessel Plates, Carbon ...

ASTM A516 / A516M-17, Standard Specification for Pressure Vessel Plates, Carbon Steel, for Moderate- and Lower-Temperature Service, ASTM International, West Conshohocken, PA, 2017, astm. Back to Top

Contact Supplier


Call us or send inquiry: +86-371-86151827 [email protected] for a quote for astm a516 grade 70 elastic modulus.


Hot Tags: astm a516 grade 70 elastic modulus sheet, astm a516 grade 70 elastic modulus and coil China, manufacturers, factory price, wholesale, customized, best, seller, high quality, low price, for sale, free sample

Inquiry