loading
DSCC-DWG-04046 - WIRE, ELECTRICAL, COMPOSITE, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, LIGHT WEIGHT, NICKEL COATED, COPPER CONDUCTOR, 260°C, 600 VOLT
July 23, 2020 - DOD

Scope. This drawing covers the performance characteristics for a composite wire using a seamless polytetrafluoroethylene/ hydrolysis resistant polyimide tape wrap insulation system, with a light weight stranded conductor.

DSCC-DWG-04042 - WIRE, ELECTRICAL, COMPOSITE, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, NORMAL WEIGHT, TIN COATED, COPPER CONDUCTOR, 150°C, 600 VOLT
July 22, 2020 - DOD

Scope. This drawing covers the performance characteristics for a composite wire using a seamless polytetrafluoroethylene/hydrolysis resistant polyimide tape wrap insulation system, with a normal weight stranded conductor.

DSCC-DWG-04045 - WIRE, ELECTRICAL, COMPOSITE, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, LIGHT WEIGHT, SILVER COATED, COPPER CONDUCTOR, 200°C, 600 VOLT
July 22, 2020 - DOD

Scope. This drawing covers the performance characteristics for a composite wire using a hydrolysis resistant, PTFE/polyimide tape wrap insulation system, with a light weight stranded conductor.

ASTM D4001 - Standard Test Method for Determination of Weight-Average Molecular Weight of Polymers by Light Scattering
July 1, 2020 - ASTM

This test method describes the test procedures for determining the weight-average molecular weight Mw of polymers by light scattering. It is applicable to all nonionic homopolymers (linear or branched) that dissolve completely without reaction or degradation to form stable solutions....

DSCC-DWG-04044 - WIRE, ELECTRICAL, COMPOSITE, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, NORMAL WEIGHT, NICKEL COATED, HIGH STRENGTH OR ULTRA HIGH STRENGTH COPPER ALLOY, 260°C, 600 VOLT
July 22, 2020 - DOD

Scope. This drawing covers the performance characteristics for a composite wire using a seamless polytetrafluoroethylene/ hydrolysis resistant polyimide tape wrap insulation system, with a light weight stranded conductor.

DSCC-DWG-04043 - WIRE, ELECTRICAL, COMPOSITE, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, NORMAL WEIGHT, SILVER COATED, HIGH STRENGTH OR ULTRA HIGH STRENGTH COPPER ALLOY, 200°C, 600 VOLT
July 22, 2020 - DOD

Scope. This drawing covers the performance characteristics for a composite wire using a PTFE/ hydrolysis resistant polyimide tape wrap insulation system, with a light weight stranded conductor.

DSCC-DWG-04034 - WIRE, ELECTRICAL, COMPOSITE, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, LIGHT WEIGHT, COPPER CONDUCTOR, TIN COATED, 150 °C, 600 VOLT
June 15, 2020 - DOD

Scope. This drawing covers the performance characteristics for a composite wire using a seamless polytetrafluoroethylene/ hydrolysis resistant polyimide tape wrap insulation system, with a light weight stranded conductor.

DSCC-DWG-04039 - WIRE, ELECTRICAL, COMPOSITE, POLYAMIDE BRAID, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, NORMAL WEIGHT, TIN COATED, COPPER CONDUCTOR, 150 °C, 600 VOLT
June 15, 2020 - DOD

Scope. This drawing covers the performance characteristics for a composite wire using a seamless polytetrafluoroethylene/ hydrolysis resistant polyimide tape wrap insulation system, with a normal weight stranded conductor.

DSCC-DWG-04041 - WIRE, ELECTRICAL, COMPOSITE, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, NORMAL WEIGHT, NICKEL COATED, COPPER CONDUCTOR, 260 °C, 600 VOLT
June 15, 2020 - DOD

Scope. This drawing covers the performance characteristics for a composite wire using a seamless polytetrafluoroethylene/ hydrolysis resistant polyimide tape wrap insulation system, with a normal weight stranded conductor.

DSCC-DWG-04040 - WIRE, ELECTRICAL, COMPOSITE, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, NORMAL WEIGHT, SILVER COATED, COPPER CONDUCTOR, 200 °C, 600 VOLT
June 15, 2020 - DOD

Scope. This drawing covers the performance characteristics for a composite wire using a seamless polytetrafluoroethylene/ hydrolysis resistant polyimide tape wrap insulation system, with a normal weight stranded conductor.

DSCC-DWG-04037 - WIRE, ELECTRICAL, COMPOSITE, POLYAMIDE BRAID, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, NORMAL WEIGHT, SILVER COATED, COPPER CONDUCTOR, 200 °C, 600 VOLT
June 15, 2020 - DOD

Scope. This drawing covers the performance characteristics for a composite wire using a seamless polytetrafluoroethylene/ hydrolysis resistant polyimide tape wrap insulation system, with a normal weight stranded conductor.

ASTM D7382 - Standard Test Methods for Determination of Maximum Dry Unit Weight of Granular Soils Using a Vibrating Hammer
July 1, 2020 - ASTM

These test methods cover the determination of the maximum dry unit weight of granular soils. A vibrating hammer is used to impart a surcharge and compactive effort to the soil specimen. Further, an optional calculation is presented to determine the approximate water content range for...

DSCC-DWG-04038 - WIRE, ELECTRICAL, COMPOSITE, POLYAMIDE BRAID, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, NORMAL WEIGHT, NICKEL COATED, COPPER CONDUCTOR, 260 °C, 600 VOLT
June 15, 2020 - DOD

Scope. This drawing covers the performance characteristics for a composite wire using a seamless polytetrafluoroethylene/ hydrolysis resistant, polyimide tape wrap insulation system, with a normal weight nickel coated copper stranded conductor.

DSCC-DWG-04035 - WIRE, ELECTRICAL, COMPOSITE, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, LIGHT WEIGHT, SILVER COATED, HIGH STRENGTH OR ULTRA HIGH STRENGTH COPPER ALLOY, 200 °C, 600 VOLT
June 15, 2020 - DOD

Scope. This drawing covers the performance characteristics for a composite wire using a seamless polytetrafluoroethylene/ hydrolysis resistant polyimide tape wrap insulation system, with a light weight stranded conductor.

DSCC-DWG-04036 - WIRE, ELECTRICAL, COMPOSITE, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, LIGHT WEIGHT, NICKEL COATED, HIGH STRENGTH OR ULTRA HIGH STRENGTH COPPER ALLOY, 260 °C, 600 VOLT
June 15, 2020 - DOD

Scope. This drawing covers the performance characteristics for a composite wire using a seamless polytetrafluoroethylene/ hydrolysis resistant polyimide tape wrap insulation system, with a light weight stranded conductor.

ASTM D3776/D3776M - Standard Test Methods for Mass Per Unit Area (Weight) of Fabric
July 1, 2020 - ASTM

These test methods cover the measurement of fabric mass per unit area (traditionally referred to as "fabric weight") and are applicable to most fabrics. There are four approved options: Option A-Full Piece, Roll, Bolt or Cut (Section 7). Option B-Full Width Sample (Section 8). Option C-Small...

DSCC-DWG-04047 - WIRE, ELECTRICAL, COMPOSITE, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, 30, 28, 26 AWG, 600 VOLT
July 23, 2020 - DOD

Scope. This drawing covers the performance characteristics for 30, 28, 26 AWG light weight composite wire using a seamless polytetrafluoroethylene/hydrolysis resistant polyimide tape wrap insulation system.

DSCC-DWG-04048 - WIRE, ELECTRICAL, COMPOSITE, POLYTETRAFLUOROETHYLENE/POLYIMIDE INSULATED, SMOOTH SURFACE, 26, 20, 18, 16 AWG, 600 VOLT
July 23, 2020 - DOD

Scope. This drawing covers the performance characteristics for 26, 20, 18, 16 AWG normal weight composite wire using a seamless polytetrafluoroethylene/hydrolysis resistant polyimide tape wrap insulation system.

ASTM E208 - Standard Test Method for Conducting Drop-Weight Test to Determine Nil-Ductility Transition Temperature of Ferritic Steels
July 1, 2020 - ASTM

This test method covers the determination of the nilductility transition (NDT) temperature of ferritic steels, 5⁄8 in. (15.9 mm) and thicker. This test method may be used whenever the inquiry, contract, order, or specification states that the steels are subject to fracture toughness requirements as...

ISO DIS 19901-5 - Petroleum and natural gas industries — Specific requirements for offshore structures — Part 5: Weight management
March 23, 2020 - ISO

This document specifies requirements for managing and controlling the weight and centre of gravity (CoG) of offshore facilities by means of mass management during all lifecycle phases; including conceptual design, front end engineering, detail engineering, onshore/inshore construction, and...

Advertisement