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TG 27 ZINC ALLOY

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Journal Articles
Alloy Digest (1981) 30 (6): Zn-36.
Published: 01 June 1981
... Tg 27 Zinc Alloy is a zinc-aluminum-copper high-strength foundry alloy that is well suited to structural applications, once the exclusive domain of malleable and cast iron, bronzes and aluminum. Tg 27 offers an as-sand-cast tensile strength of 58,000 to 64,000 psi at modest costs. It is extremely...
Journal Articles
Alloy Digest (2022) 71 (5): CS-223.
Published: 01 May 2022
... ranges and limits are commonly specified: 0.10 % maximum, 0.07 to 0.15 %, 0.10 to 0.20 %, 0.15 to 0.35 %, 0.15 to 0.40 %, 0.20 to 0.40 %, or 0.30 to 0.60 %. (c) A Si content of 0.15 0.25 % may be specified for hot dip zinc coating. In this case the mechanical properties as stated in Table 2 may...
Journal Articles
Alloy Digest (2022) 71 (9): CS-231.
Published: 01 September 2022
..., copper, zinc, lead-tin solders, lithium, cadmium and indium. The degree Table 1 Physical properties Property Liquidus temperature Density Coefficient of linear thermal expansion Thermal conductivity Specific heat capacity Electrical resistivity Electrical conductivity Unit °C (°F) kg/m3 (lb/in.3) 10 6/K...
Journal Articles
Alloy Digest (2023) 72 (1): CS-238.
Published: 01 January 2023
... and Canada are given in Table 9. Source: Ref 16 17 Liquid-Metal Corrosion. Non-alloy steels can be embrittled by contact with liquid brass, aluminum bronze, copper, zinc, lead-tin solders, lithium, cadmium, and indium. The degree of embrittlement is greater for steels that have been heat treated to produce...
Journal Articles
Alloy Digest (2023) 72 (1): CS-239.
Published: 01 January 2023
..., aluminum bronze, copper, zinc, lead-tin solders, lithium, cadmium, and indium. The degree of embrittlement is greater for steels that have been heat treated to produce higher strength. Source: Ref 10 Corrosion in Fresh Water. The average corrosion rate of nonalloy steels in stagnant air-saturated soft...
Journal Articles
Alloy Digest (2022) 71 (1): CS-215.
Published: 01 January 2022
... States and Canada are given in Table 10. Source: Ref 23 24 Liquid-Metal Corrosion. Non-alloy steels can be embrittled by contact with liquid brass, aluminum bronze, copper, zinc, lead-tin solders, lithium, cadmium and indium. The degree of embrittlement is greater for steels that have been heat treated...
Journal Articles
Alloy Digest (2022) 71 (12): CS-236.
Published: 01 December 2022
... exposed for two years at various locations in the United States and Canada are given in Table 6. Source: Ref 14 15 Liquid-Metal Corrosion. Non-alloy steels can be embrittled by contact with liquid brass, aluminum bronze, copper, zinc, lead-tin solders, lithium, cadmium and indium. The degree...
Journal Articles
Alloy Digest (2022) 71 (2): CS-217.
Published: 01 February 2022
... locations in the United States and Canada are given in Table 11. Source: Ref 26 27 Liquid-Metal Corrosion. Non-alloy steels can be embrittled by contact with liquid brass, aluminum bronze, copper, zinc, Table 2 Chemical composition of C45, C45E, and C45R Element C Si Mn P S Cr Mo Ni Cu Others Iron...
Journal Articles
Alloy Digest (2022) 71 (9): CS-230.
Published: 01 September 2022
... (120 °F), 14 days. Source: Ref 25 Fig. 3 Effect of pH and temperature on the corrosion of nonalloy steels in soft water. Source: Ref 27 Liquid-Metal Corrosion. Non-alloy steels can be embrittled by contact with liquid brass, aluminum bronze, copper, zinc, lead-tin solders, lithium, cadmium, and indium...
Journal Articles
Alloy Digest (2022) 71 (7): CS-227.
Published: 01 July 2022
... specified: 0.10 % maximum, 0.07 to 0.15 %, 0.10 to 0.20 %, 0.15 to 0.35 %, 0.15 to 0.40 %, 0.20 to 0.40 %, or 0.30 to 0.60 %. (e) For EN 10263-2 C17C a Si content of 0.15 0.25% may be specified for hot dip zinc coating. (f) ISO 4954 C17GC can be delivered in two qualities: (f.1) with Al 0.015%, or (f.2...
Journal Articles
Alloy Digest (2022) 71 (3): CS-219.
Published: 01 March 2022
... years at various locations in the United States and Canada are given in Table 7. Source: Ref 20 21. Liquid-Metal Corrosion. Non-alloy steels can be embrittled by contact with liquid brass, aluminum bronze, copper, zinc, lead-tin solders, lithium, cadmium, and indium. The degree of embrittlement...
Journal Articles
Alloy Digest (2022) 71 (3): CS-218.
Published: 01 March 2022
... Liquid-Metal Corrosion. Non-alloy steels can be embrittled by contact with liquid brass, aluminum bronze, copper, zinc, lead-tin solders, lithium, cadmium, and indium. The degree of embrittlement is greater for steels that have been heat treated to produce higher strength. Source: Ref 21 Table 1 Physical...
Journal Articles
Alloy Digest (2022) 71 (1): CS-214.
Published: 01 January 2022
... by contact with liquid brass, aluminum bronze, copper, zinc, lead-tin solders, lithium, cadmium and indium. The degree of embrittlement is greater for steels that have been heat treated to produce higher strength. Source: Ref 24 Table 1 Physical properties Property Liquidus temperature Density Coefficient...
Journal Articles
Alloy Digest (2022) 71 (10): CS-233.
Published: 01 October 2022
... designation: Familiarc TG-S50. Shielding gas: Ar. Source: Ref 52 Alloy Digest: Data on Worldwide Metals and Alloys Weldability 1012 and S12C possess excellent weldability. They can be welded readily by most methods with little need for special measures to prevent weld cracking. See Tables 19A and 19B...
Journal Articles
Alloy Digest (2022) 71 (2): CS-216.
Published: 01 February 2022
..., aluminum bronze, copper, zinc, lead-tin solders, lithium, cadmium and indium. The degree of embrittlement is greater for steels that have been heat treated to produce higher strength. Source: Ref 22 Corrosion in Fresh Water. The average corrosion rate of nonalloy steels in stagnant air-saturated soft...
Journal Articles
Alloy Digest (2022) 71 (12): CS-237.
Published: 01 December 2022
... can be embrittled by contact with liquid brass, aluminum bronze, copper, zinc, lead-tin solders, lithium, cadmium, and indium. The degree of embrittlement is greater for steels that have been heat treated to produce higher strength. Source: Ref 17 Corrosion in Fresh Water. The average corrosion rate...
Journal Articles
Alloy Digest (2022) 71 (10): CS-232.
Published: 01 October 2022
.... Source: Ref 27 28 Liquid-Metal Corrosion. Non-alloy steels can be embrittled by contact with liquid brass, aluminum bronze, copper, zinc, lead-tin solders, lithium, cadmium, and indium. The degree of embrittlement is greater for steels that have been heat treated to produce higher strength. Source: Ref...
Journal Articles
Alloy Digest (2022) 71 (4): CS-220.
Published: 01 April 2022
... designation: Trustarc MG-80. Shielding gas: CO2. (c) Equivalent Kobelco filler metal designation: Trustarc MG-S80. Shielding gas: CO2 = 5 25 %, Ar = bal. (d) Equivalent Kobelco filler metal designation: Trustarc TG-S80AM. Shielding gas: Ar. Source: Ref 52 Table 27 Comparable grades Cold rolled narrow steel...
Journal Articles
Alloy Digest (2022) 71 (4): CS-221.
Published: 01 April 2022
.... Source: Ref 21 22 Liquid-Metal Corrosion. Non-alloy steels can be embrittled by contact with liquid brass, aluminum bronze, copper, zinc, lead-tin solders, lithium, cadmium, and indium. The degree of embrittlement is greater for steels that have been heat treated to produce higher strength. Source: Ref...
Journal Articles
Alloy Digest (2022) 71 (11): CS-235.
Published: 01 November 2022
.... After about 8 years, the corrosion rate decreases to a steady state, but slower rate. Liquid-Metal Corrosion. Non-alloy steels can be embrittled by contact with liquid brass, aluminum bronze, copper, zinc, lead-tin solders, lithium, cadmium, and indium. The degree of embrittlement is greater for steels...