Various shapes and sizes of steel are available for different purposes. Blooms, billets, and slabs arrive at finishing mills, where they are formed into.

Slides:



Advertisements
Similar presentations
Steel Construction Manual
Advertisements

Stainless Steel By: Dawn McCandless.
Bronze An alloy of copper and tin. It is less malleable than brass. It is sold by the piece or by the pound.
Technology Education Dept. Bellwood-Antis High School Mr. Crowell Mr. Mackereth.
STEEL Steel is a combination of iron and carbon. There are different formulations of steel for various uses. There is stainless steel used for forks and.
New Mexico FFA Agricultural Mechanics Career Development Event Supplies and Materials.
Caskets Cap Openings.
MSE 440/540: Processing of Metallic Materials
Manufacturing, Engineering & Technology, Fifth Edition, by Serope Kalpakjian and Steven R. Schmid. ISBN © 2006 Pearson Education, Inc.,
Class Day Seventeen.
Fundamentals of Metal Forming Chapter 18
Rolling of Metals IME240/340.
A rectangular dog pen is constructed using a barn wall as one side and 60m of fencing for the other three sides. Find the dimensions of the pen that.
Chapter 4: Sheet Metal Forming
Chapter 7 Metals.
Structural drawing Instructor: M.Yaqub
1 Trade Skills HVACR116 Sheet Metal. 2 The most common types of duct material are: –Aluminum –Fiberglass duct board –Spiral metal duct –Flexible duct.
MECHANICAL DRAWING Chapter 11: Threads Fasteners and Springs
Steel Mild steel Medium carbon steel High carbon steel or hard steel
“Manufacturing” From Refined Steel Material to Shaped Product CON 251 Metals Processing.
Fundamentals of Metal Forming Chapter 18
Bulk Deformation Processes in Metal Forming Chapter 19 Part 1-Rolling
Agricultural Mechanics 1 Kingsburg High School. Identifying Metals  All metals are either ferrous or nonferrous Ferrous metals contain iron(Fe) Nonferrous.
Metals. Introduction u Metal is used in various places in the construction process including: –rebar = reinforcing steel in round shapes –flashing = thin.
Forming and Shaping ISAT 430 Module 7 Spring 2001ISAT 430 Dr. Ken Lewis 2 Forming and Shaping Meanings blend Forming means changing the shape of an existing.
Rolling Process of reducing the thickness or changing the cross-section area of a long work piece by compressive forces. accounts for about 90% of all.
Trade Skills Basics of Sheet Metal. 2 Sheet Metal History Sheet metal dates back to ancient days where many workers toiled for many hours to hammer.
J-FRM-0101 Revision with Reason No.DateInitials Drawing No. D’Vinyl Inc. Descriptive Part Name Designed byChecked by Engineer Drawing Type Foot Plate Date.
Sinhwa-Steel Park Min Woo. SINHWA-Steel Located in Changwon Produce the Various Steel product.
Base metal prep.
INTER-LAKES BASES PRODUCTS. MODEL B-75 MACHINE BASE B-75 Model with panels and doors.
Agricultural Mechanics Fundamentals & Applications
Structural Steel Shapes
New Mexico FFA Agricultural Mechanics Career Development Event Supplies and Materials.
Extrusion and Drawing of Metals
Rolling Definition: The first process that is used to convert material into a finished wrought product. Thick starting stock rolled into blooms billet.
Rolling mill.
Types of Metal.
Structural Drafting Siti Kamariah Md Sa’at School of Bioprocess Engineering, UniMAP ERT 243 COMPUTER AIDED DESIGN AND DRAFTING (CAD)
Rolling of Metals.
Manufacturing I Metal Types, Shapes and Identification.
Steel Stainless Steel Cast Iron Copper/Brass Aluminum
Sheet Metal: Notes and Descriptions MachinesProceduresTools.
Chapter 15 Extrusion and Drawing of Metals. Topics Introduction The Extrusion Process Extrusion Practice Hot Extrusion Cold Extrusion Impact Extrusion.
Extrusion Process.
Chapter #07 Mechanical working of metals.. Introduction. The mechanical working of metal is the shaping of metals either in cold or hot state by some.
FLUID FLOW FOR CHEMICAL ENGINEERING Dr Mohd Azmier Ahmad Tel: +60 (4) EKC 212 CHAPTER 8 (PART 1) TRANSPORTATION SYSTEM.
Structural Steel Construction
Welcome! Drafting 2323: Pipe Drafting Andrew Amini Full Time Instructor, HCC.
Metals Unit 212/255 – Principles of Fabrication and Welding Technology.
ROLLING Rolling is a process of reduction of the cross-sectional area or shaping a metal piece through the deformation caused by a pair of metal rolls.
Metals. Ferrous metals – contain iron Non-ferrous – contain no iron Alloys – a mixture of two or more metals.
MSE 440/540: Processing of Metallic Materials
Flexible Manufacturing
Extrusion and Drawing of Metals
Rolling of Metals Rolling Processes Dr.Adel Fathy 1.
Structural drawing.
Industrial Skills Fasteners & Hardware.
Chapter 15 Metal Extrusion and Drawing Processes and Equipment
BULK DEFORMATION PROCESSES IN METALWORKING
PLASTIC FORMING PROCRSSES
BULK DEFORMATION PROCESSES IN METALWORKING
Arch205 building construction wall systems- Steel
Part III Forming and Shaping Processes and Equipment
Chapter 5 Power Estimation in Extrusion and Wire-rod Drawing
SAGAR INSTITUTE OF RESEARCH & TECHNOLOGY- EXCELLENCE
Rolling Process of reducing the thickness or changing the cross-section area of a long work piece by compressive forces.
Assisting You With All Your Steel, Tube and Hardware Needs.
Types of Metal.
Mechanical Properties of Metals - I
Presentation transcript:

Various shapes and sizes of steel are available for different purposes. Blooms, billets, and slabs arrive at finishing mills, where they are formed into its final shape. These mills shape steel into (1) bar, rod, and wire; (2) sheet, strip, and plate; (3) pipe and tube; (4) rail and structural shapes.

 steel is rolled into shape while red hot  rough, dull exterior finish (oxides)  imprecise dimensions and corners  relatively inexpensive  easier to form than CRS

 steel is rolled into final shape after cooling  smooth, shiny exterior finish  precise dimensions and corners  more expensive than HRS  easier to machine than HRS

The five shape categories are based on the geometry and dimensions of the cross section:  Bar  Sheet  Plate  Tube and Pipe  Structural

 In general, bar stock is 3 inches or less in maximum cross-sectional dimension. Anything larger is considered a structural shape, although there is some overlap. Lengths are commonly 20 feet (240 inches), but 40 foot lengths are available.

 Angle “H x W x T x L” › 90 degree angle, unless special ordered.  Ex: 1 x 1 x 1/8 x 240 Angle › Legs may be of unequal lengths.  Ex: 2 x 1-1/2 x 1/4 x 240 Angle  Flat“T x W x L” › “W” is less than 9.  Ex: 1/4 x 1 x 240 Flat

 Round“OD x L” › OD is outside diameter.  Ex: 3/4 x 240 Round  Square“S x L” › Ex: 1 x 240 Square  Channel“W x F x T x L” › Ex: 2 x 1 x 3/16 x 240 Channel

 Sheet steel is less than 3/16 and may be coated on uncoated. Coated usually means galvanized or tin plated. Sheet thickness for ferrous metals is measured in gauge (U.S. Standard Gauge, Manufacturer’s Standard Gauge). The thickness reads one gauge thicker (a lower number) for a coated sheet. That is, a 24 gauge galvanized sheet is 24 gauge steel that has been coated with zinc, and read 23 gauge. To be sure, a decimal thickness should also be specified. Hot rolled (“black iron sheet steel”) is prone to rust but easy to paint, while cold rolled is stiffer and springier that hot rolled.

 Sheet“T x W x L” “T” is less than 3/16. › Ex: 16 Ga. x 48 x 96 Galvanized Sheet Steel › Ex: x 36 x 120 Sheet Aluminum  Ferrous metals use the U.S. Standard gauge; nonferrous metals use the English Standard Wire gauge. Exceptions: Aluminum uses decimal or fractional inches; Copper uses ounces per square foot; Tin Plate uses a base box weight, which is unique (and peculiar) to the tin industry. Example: 24 Ga. sheet steel ≈ sheet aluminum ≈ 18 oz. sheet copper

 Steel plate is 3/16 or thicker, while the width is 9 or greater. › Extreme sizes can range up to thicknesses of 15 inches.  Plate“T x W x L” › Thickness ≥ 3/16; Width ≥ 9.  Ex: 1/2 x 48 x 96 Carbon Steel Plate  Ex: 1 x 96 x 1140

 Tubing is mostly used for structural applications. Tubing may be made by welding (has an internal seam) or by extrusion (has no seam).  Round“OD x T x L” › Ex: 2 x 1/8 x 240 HREW tubing  HREW has an internal seam. › Ex: 1 x x 240 DOM tubing  DOM has no seam.  Rectangular“H x W x T x L” › Square is a subset of rectangular.  Ex: 2 x 2 x 1/8 x 240 Square Tubing  Ex: 1 x 2 x 3/16 x 240 Rectangular Tubing

 Used for construction and internal pressure applications. Even though pipe comes in different wall thicknesses, the outer diameter is kept constant in order to screw into pipe fittings. Standard lengths are 21 feet or 42 feet (252 in. or 504 in.).  Pipe“NomID x SCH# x L” › NomID is nominal inside diameter.  Ex: 3/4 x SCH40 x 252 Pipe  Typical schedules are 40 (standard wall), 80 (heavy wall), and 160(extra heavy wall).

 Large and heavy steel sections, used for buildings, bridges, and other types of construction work. Commonly available lengths are 20, 40, and 60 feet.  “I”-Beam“Designation x H x 1b/ft x L” › Heights of S-beams are exact.  Ex. S 8 x 23 x 480 Standard Beam  Heights of W-beams are nominal. › Ex. W 12 x 50 x 480 Wide- › Flange Beam Weights differ due to varying web thicknesses and flange widths.  Channel“Designation x W x lb/ft x L” › Ex. C 5 x 9 x 240 Standard Channel  Angle“Designation x H x W x T x L” › Ex. L 4 x 4 x 3/4 x 240 Structural Angle

 Expanded metal is a sheet that has had slits cut in it, then expanded. The metal may be cold rolled after slitting to flatten it. To order, read the manufacturer’s specifications to get what you want.  Expanded Metal  “Pitch x Gauge x Style x SWDLength x LWDLength” › Pitch is nominal SWD bond-to-bond width. Gauge is thickness (before flattening). R is Regular (Standard or unflattend); F is flattened. › Ex: 3/4 x #13F x 48 x 96 Carbon Steel