DOCSLIB.ORG

Thread Gauges

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Thread Gauges 1-800-265-8772 [email protected] Spaenaur Home Full Spaenaur Catalog Contact Us Français Inch and Metric Screw & Fastener Gauges Pouce et Métrique Jauges pour vis et attaches “TELLS” INCH SCREW A LENGTH CHEK’R B TAP SERIES Clearly and SPAENAUR No. Vividly Marked 876-750 C SIZE (Both Number INCLUDES: & Fractional) For American and • Instructions for use Unified Screws from D THREADS PER INCH and cutting, No. 1 thru 5/16". Also straightening, identifies wood screws, E CLEARANCE cleaning screws. sheet metal screws, DRILL SIZE • Chart of common self-tapping screws, screw types. rivets and cotter pins. F TAP DRILL SIZE • Chart of decimal G BASIC DIAMETER equivalents of wire, SIZE: letter and fractional 5-1/8" x 3" x 3/32" size drills. PKG QTY. 1 Material: STEEL, Satin-Chrome Plated COMBINATION BOLT, HEX NUT & WASHER SIZER U.S.S., S.A.E. and METRIC SPAENAUR No. 877-C04-1W PKG QTY. 1 GAUGE METRIC HEX NUTS & WASHERS BY HOLDING OVER HOLE 185 mm RULER P CATALOG 14 C CATALOG AT ALOG 1 4 GAUGE HEX NUTS & 7 INCH RULER WASHERS USS & SAE GAUGE FLAT HEADED SHEET METAL SCREWS AND WOOD SCREWS Moulded of Polystyrene, a hard, tough plastic © 2018 Spaenaur Inc. All rights reserved. Catalog may not be reproduced, in whole or in part, without the written permission of Spaenaur Inc. SubjectP: 1-800-265-877 to Catalog Terms and Conditions2 ofF :Use 1-888-252-638 available at Spaenaur.com and0 on pageww TC2w and. TC3 at the back of this catalog. .com © 2018 Spaenaur Inc. Tous droits réservés. Le catalogue ne peut être reproduit, en tout ou en partie, sans l’autorisation écrite de Spaenaur Inc. P81 L’utilisation est soumise aux Conditions d’utilisation du Catalogue disponibles sur Spaenaur.com et à la page TC4 et TC5 à la in de ce catalogue. 19 jan 2018 1-800-265-8772 [email protected] Spaenaur Home Full Spaenaur Catalog Contact Us Français Screw & Fastener Gauges Inch and Metric Jauges pour vis et attaches Pouce et Métrique DUAL PURPOSE SCREW GAUGE SPAENAUR No. 877-500 Front Face – Inch For identifying gauges and length of screws with UNC and UNF Threads, from 0 to 30 gauge, and lengths up to 3". Back Face – Metric For identifying gauges and lengths of screws with METRIC Threads, from 1 mm to 12 mm dia. and lengths up to 75 mm. Made of Aluminum (57S hard), bright, etched in black and clear lacquered. An indispensable tool for use of stock-keepers, mechanics, salespeople, etc. INCH METRIC Front PKG QTY. 1 Back of of Gauge Gauge INCH SCREW IDENTIFIER METRIC SCREW IDENTIFIER It's Threaded It’s Threaded! SPAENAUR No. SPAENAUR No. 876-751 877-203 Small in size for shirt pocket Small in size for shirt pocket carrying yet practical in utility to carrying, yet practical in utility identify all popular “INCH to identify I.F.I. metric machine SYSTEM” machine screws. Tells screws. Tells you size, basic you size, basic diameter and diameter and pitch of I.F.I. ma- pitch of UNC & UNF machine chine screws from 2 mm thru screw from number 1 thru 5/16". 12 mm. P SIZE: 5-1/8" x 1-7/8" x 1/8" A PRACTICAL & USEFUL TOOL! 4 PKG QTY. 1 ALOG 1 Manufactured in White HI-IMPACT AT CATALOG 14 C CATALOG Manufactured in POLYETHYLENE for long life. White HI-IMPACT POLYETHYLENE SIZE: 123 mm x 89 mm x 3.5 mm for long life. PKG QTY. 1 © 2018 Spaenaur Inc. All rights reserved. Catalog may not be reproduced, in whole or in part, without the written permission of Spaenaur Inc. Subject to CatalogP: 1- Terms800 and- Conditions265-877 of Use 2available F: at1- Spaenaur.com888-252-638 and on page TC20 and ww TC3 wat the. back of this catalog. .com P82 © 2018 Spaenaur Inc. Tous droits réservés. Le catalogue ne peut être reproduit, en tout ou en partie, sans l’autorisation écrite de Spaenaur Inc. L’utilisation est soumise aux Conditions d’utilisation du Catalogue disponibles sur Spaenaur.com et à la page TC4 et TC5 à la in de ce catalogue. 19 Jan 2018.
Load more

Recommended publications
  • Micro-Ruler MR-1 a NPL (NIST Counterpart in the U.K.)Traceable Certified Reference Material
    Micro-Ruler MR-1 A NPL (NIST counterpart in the U.K.)Traceable Certified Reference Material . ATraceable “Micro-Ruler”. Markings are all on one side. Mirror image markings are provided so right reading numbers are always seen. The minimum increment is 0.01mm. The circles (diameter) and square boxes (side length) are 0.02, 0.05, 0.10, 0.50, 1.00, 2.00 and 5.00mm. 150mm OVERALL LENGTH 150mm uncertainty: ±0.0025mm, 0-10mm: ±0.0005mm) 0.01mm INCREMENTS, SQUARES & CIRCLES UP TO 5mm TED PELLA, INC. Microscopy Products for Science and Industry P. O. Box 492477 Redding, CA 96049-2477 Phone: 530-243-2200 or 800-237-3526 (USA) • FAX: 530-243-3761 [email protected] www.tedpella.com DOES THE WORLD NEED A TRACEABLE RULER? The MR-1 is labeled in mm. Its overall scale extends According to ISO, traceable measurements shall be over 150mm with 0.01mm increments. The ruler is designed to be viewed from either side as the markings made when products require the dimensions to be are both right reading and mirror images. This allows known to a specified uncertainty. These measurements the ruler marking to be placed in direct contact with the shall be made with a traceable ruler or micrometer. For sample, avoiding parallax errors. Independent of the magnification to be traceable the image and object size ruler orientation, the scale can be read correctly. There is must be measured with calibration standards that have a common scale with the finest (0.01mm) markings to traceable dimensions. read. We measure and certify pitch (the distance between repeating parallel lines using center-to-center or edge-to- edge spacing.
    [Show full text]
  • Verification Regulation of Steel Ruler
    ITTC – Recommended 7.6-02-04 Procedures and guidelines Page 1 of 15 Effective Date Revision Calibration of Micrometers 2002 00 ITTC Quality System Manual Sample Work Instructions Work Instructions Calibration of Micrometers 7.6 Control of Inspection, Measuring and Test Equipment 7.6-02 Sample Work Instructions 7.6-02-04 Calibration of Micrometers Updated / Edited by Approved Quality Systems Group of the 28th ITTC 23rd ITTC 2002 Date: 07/2017 Date: 09/2002 ITTC – Recommended 7.6-02-04 Procedures and guidelines Page 2 of 15 Effective Date Revision Calibration of Micrometers 2002 00 Table of Contents 1. PURPOSE .............................................. 4 4.6 MEASURING FORCE ......................... 9 4.6.1 Requirements: ............................... 9 2. INTRODUCTION ................................. 4 4.6.2 Calibration Method: ..................... 9 3. SUBJECT AND CONDITION OF 4.7 WIDTH AND WIDTH DIFFERENCE CALIBRATION .................................... 4 OF LINES .............................................. 9 3.1 SUBJECT AND MAIN TOOLS OF 4.7.1 Requirements ................................ 9 CALIBRATION .................................... 4 4.7.2 Calibration Method ...................... 9 3.2 CALIBRATION CONDITIONS .......... 5 4.8 RELATIVE POSITION OF INDICATOR NEEDLE AND DIAL.. 10 4. TECHNICAL REQUIREMENTS AND CALIBRATION METHOD ................. 7 4.8.1 Requirements .............................. 10 4.8.2 Calibration Method: ................... 10 4.1 EXTERIOR ............................................ 7 4.9 DISTANCE
    [Show full text]
  • Fastener Identification Guide • 4.13 KM • Printed in the USA
    HEAD STYLES Hex Cap Screw Bugle Hex cap screws feature a washer face on the Button Washer bearing surface, a chamfered point, and tighter body tolerances than hex bolts. Pan Binding Undercut Hex Bolt Similar to hex cap screw, hex bolts do not require a washer face or a pointed end and have a greater tolerance range in the body. Round Head Fillister Socket Head Cap Screw Socket heads feature an internal hexagonal drive DRIVES socket and close tolerances for precision assembly. Flat 82° Cross Recess Button Head Socket Cap Screw Type I FASTENER (Phillips) Button heads feature a dome shaped head, though Flat 100° this feature reduces the tensile capacity. Cross Recess Flat Head Socket Cap Screw Type IA Flat heads feature an 82° countersunk head for Flat Undercut (Pozidriv®) IDENTIFICATION flush connections. Like the button heads, this feature reduces the tensile capacity. Cross Recess Type II (Frearson) Low Head Socket Cap Screw Indented Hex Low heads are similar to standard socket heads, but with a shorter head for applications where clearance Cross Recess Square GUIDE is an issue. This head configuration also reduces the Combo strength capacity. Indented Hex Washer (Quadrex®) NUTS Carriage Bolt A round head bolt with a square neck under the Slotted head. These must be tightened with a nut. Serrated Hex Finished Hex Nuts: Hex Coupling Nuts: Washer Hexagonal shaped nuts with internal screw Designed to join two externally threaded Plow Bolt threads. Finished hex nuts are one of the most objects, usually threaded rod, together. Combination Similar to a carriage bolt, these have a flat head common nuts used.
    [Show full text]
  • Threaded Fasteners
    Threaded Fasteners Introduction If you are designing and building a Formula SAE vehicle, threaded fasteners will likely be used to join the various components and systems together and allow the vehicle to function as a unified machine. The reliability of your vehicle is key to realize your potential at the competition. Even though threaded fasteners have been in use for hundreds of years and are in products that we use every day, their performance is dependent on a wide range of factors. This chapter covers some of the main factors that can influence reliability and is intended as an aid in joint design, fastener selection, and installation. The first portion of this chapter covers several design and installation factors that can work together to improve the reliability of your vehicle’s bolted joints. These topics include, the importance of generating and maintaining clamp load, and how clamp load, along with joint stiffness, can work together to prevent self-loosening and improve fatigue performance. The second portion of this chapter reviews how installation method and torque are related to clamp load, and also includes a comparison between common fastener types to aid in selection. The chapter concludes with a short tutorial showing how to obtain Mil Spec information on fasteners and similar hardware. Disclaimer – Multiple factors on each component in a bolted joint affect its performance. Additionally, service requirements for every joint differ. Each joint must be evaluated and tested for its ability to perform the desired function. The information in this chapter provides general background and does not represent how a specific design or piece of hardware will perform.
    [Show full text]
  • MICHIGAN STATE COLLEGE Paul W
    A STUDY OF RECENT DEVELOPMENTS AND INVENTIONS IN ENGINEERING INSTRUMENTS Thai: for III. Dean. of I. S. MICHIGAN STATE COLLEGE Paul W. Hoynigor I948 This]: _ C./ SUPP! '3' Nagy NIH: LJWIHL WA KOF BOOK A STUDY OF RECENT DEVELOPMENTS AND INVENTIONS IN ENGINEERING’INSIRUMENTS A Thesis Submitted to The Faculty of MICHIGAN‘STATE COLLEGE OF AGRICULTURE AND.APPLIED SCIENCE by Paul W. Heyniger Candidate for the Degree of Batchelor of Science June 1948 \. HE-UI: PREFACE This Thesis is submitted to the faculty of Michigan State College as one of the requirements for a B. S. De- gree in Civil Engineering.' At this time,I Iish to express my appreciation to c. M. Cade, Professor of Civil Engineering at Michigan State Collegeafor his assistance throughout the course and to the manufacturers,vhose products are represented, for their help by freely giving of the data used in this paper. In preparing the laterial used in this thesis, it was the authors at: to point out new develop-ants on existing instruments and recent inventions or engineer- ing equipment used principally by the Civil Engineer. 20 6052 TAEEE OF CONTENTS Chapter One Page Introduction B. Drafting Equipment ----------------------- 13 Chapter Two Telescopic Inprovenents A. Glass Reticles .......................... -32 B. Coated Lenses .......................... --J.B Chapter three The Tilting Level- ............................ -33 Chapter rear The First One-Second.Anerican Optical 28 “00d011 ‘6- -------------------------- e- --------- Chapter rive Chapter Six The Latest Type Altineter ----- - ................ 5.5 TABLE OF CONTENTS , Chapter Seven Page The Most Recent Drafting Machine ........... -39.--- Chapter Eight Chapter Nine SmOnnB By Radar ....... - ------------------ In”.-- Chapter Ten Conclusion ------------ - ----- -.
    [Show full text]
  • 1. Hand Tools 3. Related Tools 4. Chisels 5. Hammer 6. Saw Terminology 7. Pliers Introduction
    1 1. Hand Tools 2. Types 2.1 Hand tools 2.2 Hammer Drill 2.3 Rotary hammer drill 2.4 Cordless drills 2.5 Drill press 2.6 Geared head drill 2.7 Radial arm drill 2.8 Mill drill 3. Related tools 4. Chisels 4.1. Types 4.1.1 Woodworking chisels 4.1.1.1 Lathe tools 4.2 Metalworking chisels 4.2.1 Cold chisel 4.2.2 Hardy chisel 4.3 Stone chisels 4.4 Masonry chisels 4.4.1 Joint chisel 5. Hammer 5.1 Basic design and variations 5.2 The physics of hammering 5.2.1 Hammer as a force amplifier 5.2.2 Effect of the head's mass 5.2.3 Effect of the handle 5.3 War hammers 5.4 Symbolic hammers 6. Saw terminology 6.1 Types of saws 6.1.1 Hand saws 6.1.2. Back saws 6.1.3 Mechanically powered saws 6.1.4. Circular blade saws 6.1.5. Reciprocating blade saws 6.1.6..Continuous band 6.2. Types of saw blades and the cuts they make 6.3. Materials used for saws 7. Pliers Introduction 7.1. Design 7.2.Common types 7.2.1 Gripping pliers (used to improve grip) 7.2 2.Cutting pliers (used to sever or pinch off) 2 7.2.3 Crimping pliers 7.2.4 Rotational pliers 8. Common wrenches / spanners 8.1 Other general wrenches / spanners 8.2. Spe cialized wrenches / spanners 8.3. Spanners in popular culture 9. Hacksaw, surface plate, surface gauge, , vee-block, files 10.
    [Show full text]
  • FIELD EXTENSIONS and the CLASSICAL COMPASS and STRAIGHT-EDGE CONSTRUCTIONS 1. Introduction to the Classical Geometric Problems 1
    FIELD EXTENSIONS AND THE CLASSICAL COMPASS AND STRAIGHT-EDGE CONSTRUCTIONS WINSTON GAO Abstract. This paper will introduce the reader to field extensions at a rudi- mentary level and then pursue the subject further by looking to its applications in a discussion of some constructibility issues in the classical straight-edge and compass problems. Field extensions, especially their degrees are explored at an introductory level. Properties of minimal polynomials are discussed to this end. The paper ends with geometric problems and the construction of polygons which have their proofs in the roots of field theory. Contents 1. introduction to the classical geometric problems 1 2. fields, field extensions, and preliminaries 2 3. geometric problems 5 4. constructing regular polygons 8 Acknowledgments 9 References 9 1. Introduction to the Classical Geometric Problems One very important and interesting set of problems within classical Euclidean ge- ometry is the set of compass and straight-edge questions. Basically, these questions deal with what is and is not constructible with only an idealized ruler and compass. The ruler has no markings (hence technically a straight-edge) has infinite length, and zero width. The compass can be extended to infinite distance and is assumed to collapse when lifted from the paper (a restriction that we shall see is irrelevant). Given these, we then study the set of constructible elements. However, while it is interesting to note what kinds objects we can create, it is far less straight forward to show that certain objects are impossible to create with these tools. Three famous problems that we will investigate will be the squaring the circle, doubling the cube, and trisecting an angle.
    [Show full text]
  • Verification Regulation of Steel Ruler
    ITTC – Recommended 7.6 - 02- 01 Procedures and Guidelines Page 1 of 7 Sample Work Instructions Effective Date Revision 2002 00 Calibration of Steel Rulers Table of Contents PURPOSE…………………………………...2 Edges………………………………….4 3.5.1 Requirements ...............................4 WORK INSTRUCTION……………………2 3.5.2 Method of Calibration..................4 3.6 Thickness of the Side Edge………….5 1 Introduction…………………………2 3.6.1 Method of Calibration..................5 2 Items and Condition of Calibration…..2 3.7 Arc Radius at the Intersecting Position of the End and the Side 3 Technical Requirements and Calibration Edges………………………………….5 Method……………………………………….2 3.7.1 Requirements ...............................5 3.1 Exterior………………………………2 3.7.2 Method Calibration......................5 3.1.1 Requirements ...............................2 3.8 Width and Difference Between the 3.2 Flatness of ruler face………………..3 Lines…………………………………..5 3.2.1 Requirements ...............................3 3.8.1 Requirements ...............................5 3.2.2 Method of Calibration..................4 3.8.2 Method of Calibration..................5 3.3 Elasticity……………………………..4 3.9 Error of Indication…………………..5 3.3.1 Requirements ...............................4 3.9.1 Requirements ...............................5 3.3.2 Method of Calibration..................4 3.9.2 Method of Calibration..................6 3.4 Linearity of the Ruler End and Side 4 Treatment of the Calibration Result and Edges………………………………….4 the Calibration Period………………….7 3.4.1 Requirements ...............................4
    [Show full text]
  • Marking Gauge
    Online Extra accurate layouts with a Marking Gauge When it comes to fast and accurate layouts, this traditional tool will more than earns its keep in the woodworking shop. Thumb If I were to make a list of the If you take a look at the various the amount of brass details used screw most-used tools in my shop, the marking gauges being sold today, in the construction. The more marking gauge would be you’ll notice two distinct types. expensive gauges have brass thumb near the top. Even with the Some use a steel pin to scribe a line myriad of rulers, calipers, while others use a flat blade. This and digital measuring second type is often called a “cut- devices that are available ting gauge” because the blade slices today, it’s hard to beat this the wood fibers rather than tearing simple tool for accuracy them, like the pin-style marking and ease of use. gauges (see photos at right). Of the two, I prefer the blade-style gauge. Blade Wedge It scores a cleaner, crisper line. DESIGN. A marking gauge is one of those simple tools whose basic design hasn’t changed much over the years. It has a beam and an adjustable fence (or stock) that is Brass wear strip held in place with a thumb screw, or sometimes, a wedge. Fence The only other differences you’re (or stock) Beam likely to find between the various { A marking gauge (top) tears gauges on the market have to do its way across the wood, while with the level of fit and finish and a cutting gauge scores a line.
    [Show full text]
  • Inspection of Wooden Vessels
    Guidance on Inspection, Repair, and Maintenance of Wooden Hulls ENCLOSURE (1) TO NVIC 7-95 COMPILED BY THE JOINT INDUSTRY/COAST GUARD WOODEN BOAT INSPECTION WORKING GROUP August 1995 TABLE OF CONTENTS ACKNOWLEDGEMENTS A-1 LIST OF FIGURES F-1 GLOSSARY G-1 CHAPTER 1. DESIGN CONSIDERATIONS A. Introduction 1-1 B. Acceptable Classification Society Rules 1-1 C. Good Marine Practice 1-1 CHAPTER 2. PLAN SUBMITTAL GUIDE A. Introduction 2-1 B. Plan Review 2-1 C. Other Classification Society Rules and Standards 2-1 D. The Five Year Rule 2-1 CHAPTER 3. MATERIALS A. Shipbuilding Wood 3-1 B. Bending Woods 3-1 C. Plywood. 3-2 D. Wood Defects 3-3 E. Mechanical Fastenings; Materials 3-3 F. Screw Fastenings 3-4 G. Nail Fastenings 3-5 H. Boat Spikes and Drift Bolts 3-6 I. Bolting Groups 3-7 J. Adhesives 3-7 K. Wood Preservatives 3-8 CHAPTER 4. GUIDE TO INSPECTION A. General 4-1 B. What to Look For 4-1 C. Structural Problems 4-1 D. Condition of Vessel for Inspection 4-1 E. Visual Inspection 4-2 F. Inspection for Decay and Wood Borers 4-2 G. Corrosion & Cathodic Protection 4-6 H. Bonding Systems 4-10 I. Painting Galvanic Cells 4-11 J. Crevice Corrosion 4-12 K. Inspection of Fastenings 4-12 L. Inspection of Caulking 4-13 M. Inspection of Fittings 4-14 N. Hull Damage 4-15 O. Deficiencies 4-15 CHAPTER 5. REPAIRS A. General 5-1 B. Planking Repair and Notes on Joints in Fore and 5-1 Aft Planking C.
    [Show full text]
  • Chisel Quilts
    1501 Easy Chisel Quilts REQUIRED GO! Baby Friendly Twelve Star Quilt Quilt 49” x 61” Finished Block SizeSize 11½”11½” Teresa Varnes Amie Potter Long Braid Tablee RunneRunnerr 14” x 102” Finished Width ooff BrBraidaid 6” Eleanor Burns Judy Jackson Medium Length Braid Table Runner 14” x 54” 2 Select from a Star Lap Robe or Braid Table Runer in two sizes featuring AccuQuilt® Die #55039 for Chisels. The Star also uses Die #55009 for Half Square Triangles. This die is #3 from the 6” Mix and Match series. The Chisel die cuts two shapes at a time. Chisels #55039 The Half Square Half Square Triangle Triangle die cuts four #55009 shapes at a time. Carefully follow cutting instructions, because they are not the same for both projects. Chisels for Star Lap Robe are cut from strips placed right side up. Chisels for Braid Table Runner are cut from strips placed wrong sides together in pairs. 3 Fabric Selection Decide on the theme or era of your projects, such as Civil War, Depression, Traditional, Modern, Juvenile, or Holiday. It's easy to select from a line that a designer put together in a variety of prints and solids, or ones that appear solid. A total of eighteen fat quar- ters is enough for both projects, including two Table Runners in the medium length. Select twelve medium to dark print fat quarters in a variety of values, colors, and scales. Select six Background prints in similar values but different textures that appear solid and do not distract from prints. Twelve Fat Quarters Six Backgrounds In additional, purchase fabric listed on page 5 for finishing your project.
    [Show full text]
  • Schut for Precision
    Schut for Precision Protractors / Clinometers / Spirit levels Accuracy of clinometers/spirit levels according DIN 877 Graduation Flatness (µm) µm/m " (L = length in mm) ≤ 50 ≤ 10 4 + L / 250 > 50 - 200 > 10 - 40 8 + L / 125 L > 200 > 40 16 + / 60 C08.001.EN-dealer.20110825 © 2011, Schut Geometrische Meettechniek bv 181 Measuring instruments and systems 2011/2012-D Schut.com Schut for Precision PROTRACTORS Universal digital bevel protractor This digital bevel protractor displays both decimal degrees and degrees-minutes-seconds at the same time. Measuring range: ± 360 mm. Reversible measuring direction. Resolution: 0.008° and 30". Fine adjustment. Accuracy: ± 0.08° or ± 5'. Delivery in a case with three blades (150, 200 Mode: 0 - 90°, 0 - 180° or 0 - 360°. and 300 mm), a square and an acute angle On/off switch. attachment. Reset/preset. Power supply: 1 battery type CR2032. Item No. Description Price 907.885 Bevel protractor Option: 495.157 Spare battery Single blades Item No. Blade length/mm Price 909.380 150 909.381 200 909.382 300 909.383 500 909.384 600 909.385 800 C08.302.EN-dealer.20110825 © 2011, Schut Geometrische Meettechniek bv 182 Measuring instruments and systems 2011/2012-D Schut.com Schut for Precision PROTRACTORS Universal digital bevel protractor This stainless steel, digital bevel protractor is Item No. Description Price available with blades from 150 to 1000 mm. The blades and all the measuring faces are hardened. 855.820 Bevel protractor Measuring range: ± 360°. Options: Resolution: 1', or decimal 0.01°. 495.157 Spare battery Accuracy: ± 2'. 905.409 Data cable 2 m Repeatability: 1'.
    [Show full text]