If this document is printed it becomes uncontrolled. Check for the latest revision.
Tyco Electronics Corporation
300 Constitutional Drive
Menlo Park, CA 94025 USA
Specification
This Issue:
Date:
Replaces:
RT-1316
Issue 2
December 15, 1982
Issue 1
THERMOFIT® POLYOLEFIN MOLDED COMPONENTS
Flame-Resistant, Flexible, Heat-Shrinkable
1. SCOPE
This specification covers the requirements of one type of flexible, electrical insulating molded component
whose diameter will reduce to a predetermined size upon the application of heat in excess of 100°C (212°F).
2. APPLICABLE DOCUMENTS
This specification takes precedence over documents referenced herein. Unless otherwise specified, the latest
issue of referenced documents applies. The following documents form a part of this specification to the
extent specified herein.
2.1 GOVERNMENT-FURNISHED DOCUMENTS
Military
MIL-G-5572 Gasoline, Aviation, Grades 80/87, 100/130, 115/145
MIL-H-5606 Hydraulic Fluid, Petroleum Base, Aircraft, Missile and Ordnance
MIL-T-5624 Turbine Fuel, Aviation, Grades JP-4 and JP-5
MIL-L-7808 Lubricating Oil, Aircraft Turbine Engine, Synthetic Base
MIL-STD-105 Sampling Procedures and Tables for Inspection by Attributes
2.2 OTHER PUBLICATIONS
American Society for Testing and Materials (ASTM)
ASTM D 149 Standard Methods of Test for Dielectric Breakdown Voltage and Dielectric Strength of
Electrical Insulating Materials at Commercial Power Frequencies
ASTM D 257 Standard Methods of Test for D-C Resistance or Conductance of Insulating Materials
ASTM D 412 Standard Method of Test for Rubber Properties in Tension
ASTM D 570 Standard Methods of Test for Water Absorption of Plastics
Page 2 SPECIFICATION RT-1316 ISSUE 2
If this document is printed it becomes uncontrolled. Check for the latest revision.
ASTM D 635 Standard Methods of Test for Rate of Burning and/or Extent and Time of Burning of
Self-Supporting Plastics in a Horizontal Position
ASTM D 747 Standard Methods of Test for Stiffness of Plastics by Means of a Cantilever Beam
ASTM D 792 Standard Methods of Test for Specific Gravity and Density of Plastics by Displacement
ASTM D 2240 Standard Methods of Tests for Rubber Property-Durometer Hardness
ASTM D 2671 Standard Methods of Testing Heat-Shrinkable Tubing for Electrical Use
ASTM G 21 Recommended Practice for Determining Resistance of Synthetic Polymeric Materials to
Fungi
(Copies of ASTM publications may be obtained from the American Society for Testing and Materials, 1916
Race, Philadelphia, Pennsylvania 19103.)
3. REQUIREMENTS
3.1 MATERIAL
The molded components shall be fabricated from a crosslinked, thermally stabilized, flame-resistant,
modified polyolefin composition. They shall be homogeneous and essentially free from flaws, defects,
pinholes, bubbles, seams, cracks and inclusions.
3.2 COLOR
The molded components shall be black.
3.3 PROPERTIES
The molded components and the material from which they are fabricated shall meet the requirements of
Table 1.
4. QUALITY ASSURANCE PROVISIONS
4.1 CLASSIFICATION OF TESTS
4.1.1 Qualification Tests
Qualification tests are those performed on molded slabs and components submitted for qualification as
satisfactory products and shall consist of all tests listed in this specification.
4.1.2 Acceptance Tests
Acceptance tests are those performed on molded components submitted for acceptance under contract.
Acceptance tests shall consist of the following: dimensions, dimensional recovery, tensile strength, ultimate
elongation, heat shock and flammability.
SPECIFICATION RT-1316 ISSUE 2 Page 3
If this document is printed it becomes uncontrolled. Check for the latest revision.
4.2 SAMPLING INSTRUCTIONS
4.2.1 Qualification Test Samples
Qualification test samples shall consist of six molded slabs, 6 x 6 x 0.075 ± 0.010 inches
(152 x 152 x 1.9 ± .25 mm), and the number of molded components specified. The molded slabs shall be
fabricated from the same lot of material and shall be subject to the same degree of crosslinking as the molded
components.
4.2.2 Acceptance Test Samples
Acceptance test samples shall consist of specimens cut from a molded slab
6 x 6 x 0.075± 0.010 inches (152 x 152 x 1.9 ± .25 mm), and molded components selected at random in
accordance with MIL-STD-105, Inspection Level S-2, AQL 6.5 percent. The molded slab shall be fabricated
from the same lot of material and shall be subjected to the same degree of crosslinking as the molded
components. A lot of components shall consist of all molded components from the same lot of material,
from the same production run, and offered for inspection at the same time.
4.3 TEST PROCEDURES
4.3.1 Dimensional Recovery
Samples of molded components, as supplied, shall be measured for dimensions in accordance with ASTM D
2671. The samples then shall be conditioned for 10 minutes in a 150 ± 2°C (302 ± 4°F) oven, or equivalent,
cooled to room temperature, and remeasured.
4.3.2 Elastic Memory
A 6 x 1/8-inch (152 x 3.2-mm) specimen cut from a molded slab shall be marked with two parallel gage lines
1 inch (25 mm) apart in the central portion of the specimen. The distance between gage lines shall be
recorded as the original length. A 2-inch (5l-mm) portion of the specimen including both gage lines then
shall be heated for 1 minute in a 150 ± 2°C (302 ± 4°F) oven, or equivalent, removed from the oven, and
stretched within 10 seconds, until the gage lines are 4 inches (102 mm) apart. The extended specimen shall
be cooled to room temperature and released from tension. After 24 hours at room temperature, the distance
between the gage line shall be measured and recorded as the extended length. The portion of the specimen
including both gage lines then shall be reheated for 1 minute in a 150 ± 2°C (302 ± 4°F) oven, or equivalent,
and the distance between gage lines then shall be measured and recorded as the retracted length. Expansion
and retraction shall be calculated as follows:
E = Le - Lo
Lo x 100
R = Le - Lr
Le - Lo x 100
Where: E = Expansion (percent)
R = Retraction (percent)
Lo = Original Length [inches (mm)]
Le = Extended Length [inches (mm)]
Lr = Retracted Length [inches (mm)]
Page 4 SPECIFICATION RT-1316 ISSUE 2
If this document is printed it becomes uncontrolled. Check for the latest revision.
4.3.3 Tensile Strength and Ultimate Elongation
Three specimens cut from a molded slab using Die D of ASTM D 412 shall be tested for tensile strength and
ultimate elongation in accordance with ASTM D 412.
4.3.4 Low Temperature Flexibility
Three 6 x 1/4-inch (152 x 6.3-mm) specimens cut from a molded slab shall be conditioned, along with a 1-
1/8-inch (28.5-mm) mandrel, in a cold chamber at -55 ± 2°C (-67 ± 4°F) for 4 hours. After completion of the
conditioning, and while still in the cold chamber, each specimen shall be bent around the mandrel through
not less than 360 degrees (6.28 rads) within 10 ± 2 seconds. The specimens then shall be visually examined
for cracks.
4.3.5 Heat Shock
Three 6 x 1/4-inch (152 x 6.3-mm) specimens cut from a molded slab shall be conditioned for
4 hours in a 250 ± 5°C (482 ± 9°F) mechanical convection oven with an air velocity of between
100 and 200 feet per minute (0.5 and 1 m/s) past the specimens. After conditioning, the specimens shall be
removed from the oven, cooled to room temperature, and bent through 360 degrees
(6.38 rads) over a 3/8-inch (9.5-mm) diameter mandrel. The specimens then shall be visually examined for
evidence of dripping, flowing or cracking.
4.3.6 Heat Aging
Three specimens prepared and measured in accordance with 4.3.3 shall be conditioned for
168 hours in a 175 ± 5°C (347 ± 9°F) mechanical convection oven in which air passes the specimens at a
velocity of 100 to 200 feet per minute (0.5 and 1 m/s). After conditioning, the specimens shall be removed
from the oven, cooled to room temperature, and tested for tensile strength and ultimate elongation in
accordance with 4.3.3.
4.3.7 Corrosive Effect
Three 1 x 1/4-inch (25.4 x 6.3-mm) specimens cut from a molded slab shall be tested for corrosive effect in
accordance with ASTM D 267l, Procedure A. The specimens shall be conditioned for
16 hours at 175 ± 3°C (347 ± 5°F).
SPECIFICATION RT-1316 ISSUE 2 Page 5
If this document is printed it becomes uncontrolled. Check for the latest revision.
4.3.8 Fluid Resistance
Three specimens prepared and measured in accordance with 4.3.3 shall be completely immersed in each of
the fluids listed in Table 1 for 24 hours at 25 ± 3°C (77 ± 5°F). The volume of the fluid shall be not less than
20 times that of the specimens. After conditioning, the specimens shall be lightly wiped and then air-dried
for 30 to 60 minutes at room temperature. The specimens then shall be tested for tensile strength and
ultimate elongation in accordance with 4.3.3.
4.4 REJECTION AND RETEST
Failure of any sample to comply with any one of the requirements of this specification shall be cause for
rejection of the lot represented. Material which has been rejected may be replaced or reworked to correct the
defect and then resubmitted for acceptance. Before resubmitting, full particulars concerning the rejection
and the action taken to correct the defect shall be furnished to the inspector.
5. PREPARATION FOR DELIVERY
5.1 PACKAGING
The molded components shall be packaged in accordance with good commercial practice. The exterior
shipping container shall be not less than 125 pound test fiberboard.
5.2 MARKING
Each molded component shall be distinctly identified with the manufacturer’s name or symbol and the
manufacturer’s part number.
Page 6 SPECIFICATION RT-1316 ISSUE 2
If this document is printed it becomes uncontrolled. Check for the latest revision.
TABLE 1
REQUIREMENTS
PROPERTY UNIT REQUIREMENTS TEST METHOD
PHYSICAL
Dimensions
Inches (mm)
In accordance with specification
control drawing
Section 4.3.1
ASTM D 2671
Dimensional Recovery Inches (mm) In accordance with specification
control drawing Section 4.3.1
ASTM D 2671
Elastic Memory Percent 275 expansion minimum
93 retraction minimum Section 4.3.2
Tensile Strength psi (MPa) 1500 minimum (10.3) Section 4.3.3
Ultimate Elongation Percent 250 minimum ASTM D 412
Stiffness psi (MPa) 12,000 max. (82.7) ASTM D 747
Specific Gravity --- 1.40 max. ASTM D 792
Hardness Shore D 40 ± 10 ASTM D 2240
Low Temperature Flexibility
4 hours at -55°C (-67°F) --- No cracking Section 4.3.4
Heat Shock
4 hours at 250°C (482°F) --- No dripping, flowing or cracking Section 4.3.5
Heat Aging
168 hours at 175°C (347°F)
Followed by tests for:
--- --- Section 4.3.6
Tensile Strength psi (MPa) 1000 minimum (6.9) Section 4.3.3
Ultimate Elongation Percent 200 minimum Section 4.3.3
ELECTRICAL
Dielectric Strength Volts/mil
(kV/mm) 200 minimum (7.9) ASTM D 149
Volume Resistivity ohm-cm 1012 minimum ASTM D 257
CHEMICAL
Corrosive Effect
16 hours at 175°C (347°F)
---
Non-Corrosive
Section 4.3.7
ASTM D 2671
Procedure A
Flammability
Average Time of Burning
Average Extent of Burning
Seconds
Inches (mm)
90 maximum
1 maximum (25.4)
ASTM D 635
Fungus Resistance --- Rating of 1 or less ASTM G 21
Water Absorption
24 hours at 25°C (77°F) Percent 0.5 max. ASTM D 570
Fluid Resistance
24 hours at 25°C (77°F)
JP-4 Fuel (MIL-T-5624)
Skydrol* 500
Hydraulic Fluid (MIL-H-5606)
Aviation Gasoline (100/130)
(MIL-G-5572)
Lubricating Oil (MIL-L-7808)
Water
Followed by tests for:
--- --- Section 4.3.8
Tensile Strength psi (MPa) 750 min. (5.2) Section 4.3.3
Ultimate Elongation Percent 200 min.
*Trademark of Monsanto Company
