Rapid Methods for the Identification of Copper-Base Alloys PDF Download
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Author: R. P. Nevers
Publisher:
ISBN:
Category : Electronography
Languages : en
Pages : 4
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Book Description
Copper-base alloys are so numerous and varied in composition that there are few simple tests which can give reliable indications of all the alloying elements. There are tests to show the presence of the elements tin, lead, silicon, etc. which, taken together with such other factors as color and a knowledge of the origin or application of the alloy, will serve to classify the material within certain limits. These tests generally involve dissolvinga small portion in a beaker or test tube and observing the effects of added reagents. Spot tests are not always reliable, due to the intense blue color of the copper masking the effects of subsequent reactions. There is no reliable substitute for the spectrograph except a complete qualitative chemical analysis with all its time-consuming operations.
Author: R. P. Nevers
Publisher:
ISBN:
Category : Electronography
Languages : en
Pages : 4
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Book Description
Copper-base alloys are so numerous and varied in composition that there are few simple tests which can give reliable indications of all the alloying elements. There are tests to show the presence of the elements tin, lead, silicon, etc. which, taken together with such other factors as color and a knowledge of the origin or application of the alloy, will serve to classify the material within certain limits. These tests generally involve dissolvinga small portion in a beaker or test tube and observing the effects of added reagents. Spot tests are not always reliable, due to the intense blue color of the copper masking the effects of subsequent reactions. There is no reliable substitute for the spectrograph except a complete qualitative chemical analysis with all its time-consuming operations.
Author: Harold E. Marr
Publisher:
ISBN:
Category : Copper alloys
Languages : en
Pages : 24
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Book Description
Author: Harold E. Marr
Publisher:
ISBN:
Category :
Languages : en
Pages : 15
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Book Description
Author: American Society for Testing Materials
Publisher:
ISBN:
Category : Electronography
Languages : en
Pages : 88
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Book Description
Author:
Publisher:
ISBN:
Category : Energy development
Languages : en
Pages : 1626
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Book Description
Author: M. L. Wilson
Publisher: ASTM International
ISBN: 0803105282
Category : Alloys
Languages : en
Pages : 58
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Book Description
The analyst should familiarize himself with the metals and alloys he expects to encounter including normal processing methods involved in fabricating the finished products. He should become familiar with the flow diagrams and procedures for determining constituent alloys in the various metal families listed in this publication. Normal cleaning processes must be observed on metals at test areas to remove dirt, grease, oxides, or metallic coatings such as nickel, zinc, tin, aluminum, etc., prior to performing a test. Cleaning solvents, files, or abrasives can be used as applicable. After properly cleaning the test area, the analyst should follow detailed instructions for each test relative to chemicals used, number of drops, and time allowed for each reaction. Procedures for determining constituent alloys in various metal families can be used independently of the flow diagrams; however, some tests on the flow diagrams refer the analyst to tests listed in the metal family procedures. Qualitative analysis can be performed on unknown metals and alloys by following the procedures for determining alloys in a given alloy family.
Author:
Publisher:
ISBN:
Category : Mineral industries
Languages : en
Pages : 730
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Book Description
Author: R. J. Gajan
Publisher:
ISBN:
Category : Zinc alloys
Languages : en
Pages : 18
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Book Description
Author: L. A. Wooten
Publisher:
ISBN: 9780803164970
Category : Electronic book
Languages : en
Pages : 77
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Book Description
Author: George Norwitz
Publisher:
ISBN:
Category : Technology & Engineering
Languages : en
Pages : 120
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Book Description
CONTENTS - 1. SPECIAL REAGENTS - 2. INGOT COPPER - Copper; Lead and Iron; Bismuth; Antimony and Arsenic; Sulfur - 3. BRASSES AND BRONZES - Sequence Procedure for Copper, Lead, Tin, Nickel, and Iron in Brasses and Bronzes with Less than 0.3% Iron and No Manganese; Zinc; Phosphorus; Antimony; Sulfur; Sequence Procedure for Copper, Lead, Tin, Manganese, Nickel, Iron, and Aluminum in Manganese Bronzes; Zinc; Sequence Procedure for Copper, Lead, Tin, Manganese, Iron, and Aluminum in Copper-Nickel Alloys; Nickel; Zinc; Sequence Procedure for Copper, Lead, Iron, Nickel, and Manganese in Silicon Bronzes; Silicon and Tin; Aluminum; Phosphorus; Zinc; Sequence Procedure for Copper, Lead, Tin, Manganese, Nickel, and Iron in Copper-Beryllium Alloys; Cobalt; Silicon and Beryllium; Sequence Procedure for Copper, Lead, Iron, Nickel, Manganese, and Zinc in Copper-Arsenic Alloys; Aluminum; Silicon and Tin; Phosphorus; Arsenic - 4. MONEL METAL AND NICKEL METAL - Sequence Procedure for Silicon, Copper, Manganese, Iron, Aluminum, and Cobalt; Sulfur; Chromium; Titanium - 5. ALUMINUM ALLOYS - Sequence Procedure for Copper, Lead, Manganese, Iron, and Nickel; Copper in Separate Sample; Iron in Separate Sample; Zinc; Silicon; Magnesium; Titanium; Chromium; Tin; Copper, Lead, and Bismuth - 6. MAGNESIUM ALLOYS - Aluminum by the Succinate Method; Aluminum Colorimetrically; Zinc (over 1.5%) Electrolytically; Zinc (Less than 1.5%) by H28-ZnO Method; Sequence Procedure for Copper, Iron, and Nickel; Silicon; Manganese; Tin - 7. ZINC METAL (SPELTER) - Sequence Procedure for Tin, Copper, Lead, Iron, and Aluminum; Cadmium - 8. ZINC-BASE DIE-CASTING ALLOYS - Sequence Procedure for Tin, Copper, Lead, and Iron; Cadmium; Aluminum Colorimetrically; Aluminum and Magnesium by Mercury-Cathode Method - 9. CADMIUM METAL - Cadmium; Sequence Procedure for Tin, Lead, Iron, and Aluminum; Sequence Procedure for Silver, Copper, and Bismuth; Arsenic and Antimony; Zinc - 10. TIN METAL - Sequence Procedure for Bismuth, Copper, Lead, Iron and Zinc; Antimony; Arsenic - 11. LEAD METAL - Sequence Procedure for Tin, Silver, Iron, Bismuth and Copper; Antimony and Arsenic; Zinc - 12. LEAD-BASE BEARING METAL - Lead; Tin; Antimony; Arsenic; Copper; Bismuth; Iron - 13. TIN-BASE BEARING METAL - Tin; Antimony; Arsenic; Lead; Copper; Bismuth; Iron - 14. LEAD-TIN SOLDERS - Determination of Flux (Rosin Core); Determination of Flux (Zinc Chloride Core); Lead; Tin; Antimony; Arsenic; Copper; Bismuth; Iron - 15. SILVER SOLDERS - Sequence Procedure for Silver, Copper, Cadmium and Zinc; Sequence Procedure for Tin, Lead, Iron, and Nickel - 16. FUSIBLE BISMUTH ALLOYS - Sequence Procedure for Bismuth, Lead, and Cadmium - Index -
