Tyco Electronics Corporation 300 Constitutional Drive Menlo Park, CA 94025 USA Specification This Issue: Date: Replaces: RT-218 Issue 4 July 3, 1997 Issue 3 THERMOFIT(R) RT-218 TUBING Modified Polyvinylidene Fluoride, Low Outgassing, Heat-Shrinkable 1. SCOPE This specification covers the requirements for one type of flexible electrical insulating, extruded tubing whose diameter will reduce to a predetermined size upon the application of heat in excess of 175C (347F). 2. APPLICABLE DOCUMENTS This specification takes precedence over documents referenced herein. Unless otherwise specified, the latest issue of reference documents applies. The following documents form a part of this specification to the extent specified herein. 2.1 GOVERNMENT-FURNISHED DOCUMENTS Military MIL-H-5606 MIL-T-5624 MIL-L-7808 MIL-A-8243 2.2 Hydraulic Fluid, Petroleum Base, Aircraft, Missile and Ordnance Turbine Fuel, Aviation, Grades JP-4 and JP-5 Lubricating Oil, Aircraft Turbine Engine, Synthetic Base Anti-icing and Deicing - Defrosting Fluid OTHER PUBLICATIONS American Society for Testing and Materials (ASTM) D-149 Tests for Dielectric Breakdown Voltage and Dielectric Strength of Electrical Insulating Materials at Commercial Power Frequencies D-257 Standard Methods of Test for D-C Resistance or Conductance of Insulating Materials D-638 Standard Method of Test for Tensile Properties of Plastics D-792 Standard Method of Test for Specific Gravity and Density of Plastics D-876 Testing Non-rigid Vinyl Chloride Polymer Tubing D-2671 Standard Methods of Testing Heat Shrinkable Tubing G 21 Standard 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 Street, Philadelphia, Pennsylvania 19103.) Underwriters Laboratories UL 224 Standard for Extruded Insulating Tubing (Copies of UL publications may be obtained from Underwriters Laboratories Inc., 1285 Walt Whitman Road, Melville, Long Island, New York 11746.) If this document is printed it becomes uncontrolled. Check for the latest revision. Page 2 SPECIFICATION RT-218 ISSUE 4 3. REQUIREMENTS 3.1 MATERIALS The tubing shall be fabricated from thermally stabilized, modified polyvinylidene fluoride and shall be crosslinked by irradiation. It shall be homogeneous and essentially free from flaws, defects, pinholes, bubbles, seams, cracks, and inclusions. 3.2 COLOR The tubing shall be white, unless otherwise specified 3.3 PROPERTIES The tubing shall meet the requirements of Table 3. 4. QUALITY ASSURANCE PROVISIONS 4.1 CLASSIFICATION OF TESTS 4.1.1 Qualification Tests Qualification tests are those performed on tubing submitted for qualification as a satisfactory product and shall consist of all tests listed in this specification. 4.1.2 Acceptance Tests Acceptance tests are those performed on tubing submitted for acceptance under contract. Acceptance tests shall consist of the following: dimensions, longitudinal change, tensile strength, ultimate elongation, heat shock and flammability. 4.2 SAMPLING INSTRUCTIONS 4.2.1 Qualification Test Samples Qualification test samples shall consist of 50 feet (15 m) of tubing. Qualification of any size within each size range specified below shall qualify all sizes within that size range. Range of Sizes 3/64 through 1/4 3/8 through 2 For Fungus Resistance test, any size shall qualify all sizes. 4.2.2 Acceptance Test Samples Acceptance test samples shall consist of not less than 16 feet (5 m) of tubing selected at random from each lot. A lot shall consist of all tubing of the same size from the same production run and offered for inspection at the same time. If this document is printed it becomes uncontrolled. Check for the latest revision. SPECIFICATION RT-218 ISSUE 4 4.3 Page 3 TEST PROCEDURES Unless otherwise specified, perform tests on specimens which have been fully recovered for 3 minutes in a 200 5C (392 9F) oven. Prior to all testing, condition the test specimens (and measurement gauges, when applicable) for 3 hours at 23 3C (73 5F) and 50 5 percent relative humidity. Use mechanical convection type ovens in which air passes the specimens at a velocity of 100 to 200 feet (30 to 60 m) per minute. 4.3.1 Dimensions and Longitudinal Change Measure three 6-inch (150-mm) specimens of tubing, as supplied, for length 1/32 inch ( 1 mm), and inside diameter in accordance with ASTM D 2671. Recover and condition the specimens in accordance with Section 4.3, measure the wall thickness and remeasure the length and inside diameter. Calculate the longitudinal change as follows: C = Where: 4.3.2 C = L0 = L1 = L1 - L0 L0 x 100 Longitudinal Change [Percent] Length Before Recovery Length After Recovery Tensile Strength and Ultimate Elongation Determine the tensile strength and ultimate elongation in accordance with ASTM D 2671 using 1-inch (25-mm) bench marks and a 1-inch (25-mm) initial jaw separation. Use a rate of jaw separation of 2.0 0.2 inches (50 5 mm) per minute. 4.3.3 Secant Modulus The secant modulus of the tubing shall be tested in accordance with ASTM D 671 using specimens in the assupplied condition 4.3.4 Low Temperature Flexibility For tubing of expanded diameter 1/4 inch (6 mm) or greater, cut three strip specimens, 1/4 inch (6 mm) wide and 12 inches (300 mm) long, from the expanded tubing. For tubing of expanded diameter less than 1/4 inch (6 mm), cut three tubular specimens, 12 inches (300 mm) long, from the expanded tubing. Recover the specimens in accordance with Section 4.3 and condition with appropriate mandrels for 4 hours at -55 2C (-67 4F). Use mandrels with a diameter 10 times the specimen thickness, 10 percent. For tubular specimens, use the outside diameter as the specimen thickness. While at the specified temperature, and without removing the specimens from the cold chamber, wrap the specimens 360 degrees around the mandrel in approximately 2 seconds. Visually examine for evidence of cracking. Disregard any side cracking caused by flattening of the specimens on the mandrel. 4.3.5 Heat Shock Condition three 6-inch (150-mm) specimens of tubing for 4 hours in a 300 5C (482 9F) oven. Remove the specimens from the oven, examine for evidence of dripping or flowing, cool to 23 3C (73 5F), wrap 180 degrees around a mandrel selected in accordance with Table 2, and then visually examine for evidence of cracking. Disregard side cracking caused by flattening of the specimen on the mandrel. If this document is printed it becomes uncontrolled. Check for the latest revision. Page 4 4.3.6 SPECIFICATION RT-218 ISSUE 4 Heat Resistance Three specimens prepared and measured in accordance with 4.3.2 shall be conditioned for 168 hours in a 225 3C (437 5F) oven. After conditioning. the specimens shall be removed from the oven, cooled to 23 3C ( 73 5F) and tested for tensile and elongation in accordance with 4.3.2. 4.3.7 Dielectric Strength The dielectric strength of the tubing shall be measured under oil in accordance with ASTM D 149. Five 6inch (1S0-mm) specimens of tubing shall be recovered over a metal mandrel by conditioning for 3 minutes in a 200 + 3C (392 5F) oven. The mandrel diameter shall be slightly larger than the fully re covered inside diameter of the tubing being tested. The metal mandrel shall serve as one electrode, and a 1-inch (25-mm) wide strip of lead foil wrapped around the outside of the tubing as the other electrode. The test voltage shall be applied at a rate of rise of 500 volts per second. Thickness measurements for calculating dielectric strength shall be made at the point of breakdown. 4.3.8 Corrosive Effect The tubing shall be tested for copper mirror corrosion in accordance with ASTM D 2671, Method A. using the time and temperature specified in Table III. For tubing sizes 1/8 and larger, specimens shall consist of 1/8 x l-inch (3x 2S-mm) strips cut longitudinally. Evidence of corrosion shall be the removal of copper from a mirror, leaving an area of transparency greater than 5 percent of its total area. 4.3.9 Flammability Flammability shall be tested by the following methods. 4.3.9.1 UL Subject 224, VW-1 Five 26-inch (660-mm) specimens shall be tested in accordance with UL Subject 224, VW-I. 4.3.9.2 ASTM D 876 Five 22-inch (660-mm) specimens shall be tested in accordance with ASTM D 876 4.3.10 Vacuum Outgassing Three 0.5 .05 gram specimens shall be recovered for 3 minutes at 200C and then tested for percent total weight loss and percent volatile condensable materials. The conditions for testing are: exposure time, 24 hours; sample temperature 130 3C; condensing surface temperature, 18 3C; and pressure, not greater than 1 x 10 5 torr. The vacuum shall be provided by a diffusion pump, liquid nitrogen trap vacuum system. The apparatus shall consist of a glass sample chamber, refluxing liquid heat source and a polished stainless steel plate in close contact with a copper cold finger cooled internally by circulating water. The axis of the exit of the sample chamber shall be perpendicular to and approximately 15-mm from the cooled condensing plate. A Cahn RG micro balance or equivalent shall be used for weighing. The specimen shall be weighed before and after conditioning and total weight loss calculated and the condensing plate shall be weighed before and after to calculate percent volatile condensable material. If this document is printed it becomes uncontrolled. Check for the latest revision. SPECIFICATION RT-218 ISSUE 4 4.3.11 Page 5 Fluid Resistance Six specimens shall be immersed in each of the fluids listed in Table III for 24 hours at 25 2C (77 + 4F) Three of the specimens in each fluid shall be prepared and measured in accordance with 4.3.2, and three shall be 6-in-(150-mm) lengths of tubing which have been fully recovered in accordance with 4.3.1. The volume of the fluid shall not be less than 20 times that of the specimens. After conditioning the specimens shall be removed from the fluids, lightly wiped and then air dried for 30 to 60 minutes at 23 C (73 4F). The three specimens intended for the tensile strength test shall then be tested in accordance with 4.3.2. The other three specimens shall then be slipped onto a tight fitting metal mandrel and tested for dielectric strength in accordance with 4.3.7. 4.4 REJECTION AND RETEST Failure of any sample of tubing to conform to any one of the requirements of this specification shall be cause for rejection of the lot represented. Tubing which has been rejected may be replaced or reworked to correct the defects and resubmitted for acceptance. Before resubmitting, full particulars concerning previous rejection and action taken to correct the defects shall be furnished to the inspector. 5. PREPARATION FOR DELIVERY 5.1 FORM The tubing shall be supplied in lengths of 48 =1,-0 inches (1220 +25,-0 mm), unless otherwise specified. 5.2 PACKAGING Packaging shall be in accordance with good commercial practice. The shipping container shall not be less than 125-pound-test fiberboard. 5.3 MARKING Each container of tubing shall be permanently and legibly marked with the size, quantity, manufacturer's identification, product identification and lot number. If this document is printed it becomes uncontrolled. Check for the latest revision. Page 6 SPECIFICATION RT-218 ISSUE 4 TABLE 1 Tubing Dimensions Size 3/64 1/16 3/32 1/8 3/16 1/4 3/8 1/2 3/4 1 1 1/2 2 10 11 Expanded As Supplied Inside Diameter Minimum mm. in. .046 1.17 .063 1.60 .093 2.36 .125 3.17 .187 4.74 .250 6.35 .375 9.53 .500 12.70 .750 19.05 1.000 25.40 1.500 38.10 2.000 50.80 .093 2.36 .100 2.54 Recovered Dimension -- After Heating Inside Diameter Maximum mm. in. .023 0.58 .031 0.79 .046 1.17 .062 1.57 .093 2.36 .125 3.17 .187 4.74 .250 6.35 .375 9.50 .500 12.70 .750 19.05 1.000 25.40 .031 .79 (See Note 1) Minimum mm. in. .008 0.20 .008 0.20 .008 0.20 .008 0.20 .008 0.20 .009 0.23 .009 0.23 .009 0.23 .014 0.36 .016 0.40 .016 0.40 .017 0.43 .008 0.20 .026 0.64 Wall Thickness Maximum mm. in. .012 0.30 .012 0.30 .012 0.30 .012 0.30 .012 0.30 .015 0.38 .015 0.38 .015 0.38 .020 0.51 .022 0.56 .022 0.56 .023 0.58 .012 0.30 .030 0.76 Note 1: Recovered I.D. for size 11 is .027 +/- .003 inches (0.69 +/- .08 mm) TABLE 2 Mandrel Dimensions for Heat Shock Tubing Size 3/64 to 3/16 1/4 to 2 Diameter of Mandrel mm. in. 5/16 7.9 3/4 19.0 If this document is printed it becomes uncontrolled. Check for the latest revision. Nominal mm. in. .010 0.25 .010 0.25 .010 0.25 .010 0.25 .010 0.25 .012 0.30 .012 0.30 .012 0.30 .017 0.43 .019 0.48 .019 0.48 .020 0.50 .010 0.25 .028 0.71 SPECIFICATION RT-218 ISSUE 4 Page 7 TABLE 3 Requirements PROPERTY PHYSICAL Dimensions Longitudinal Change Tensile Strength Ultimate Elongation Secant Modulus Specific Gravity Low Temperature Flexibility 4 hours at -55 2C (-67 4F) Heat Shock 4 hours 300 5C(572 9F) Heat Resistance 168 hours at 225 5C (437 5F) Followed by test for: Tensile Strength Ultimate Elongation Vacuum Outgassing TML (Total Mass Loss) VCM (Volatile Condensable Material) ELECTRICAL Dielectric Strength Volume Resistivity CHEMICAL Corrosive Effect Copper Mirror 16 hours at 200 3C (392 5F) Flammability Average Time of Burning UNIT REQUIREMENT Inches (mm) Percent psi (kPa) Percent psi(kPa) In accordance with Table 1 +0, -10 maximum 5000 minimum (34,300) 200 minimum 8 x 104 minimum (5.5 x 105) --- Section 4.3.1 ASTM D 2671 Section 4.3.2 ASTM D 2671 Section 4.3.3 ASTM D 2671 1.9 maximum ASTM D 792 No cracking Section 4.3.4 ASTM D-2671 No dripping, flowing, or cracking Section 4.3.5 ASTM D-2671 --Section 4.3.6 psi (kPa) Percent 3000 minimum (20.600) 150 minimum Percent Percent 1.0 maximum 0.1 maximum Section 4.3.10 Volts/mil (Volts/mm) ohm-cm 600 minimum (23,500) Section 4.3.7 ASTM D 149 ASTM D 257 --- Non Corrosive ----- Tensile Strength 1012 minimum Pass, VW-1 rating Seconds Fungus Resistance Fluid Resistance 24 hours at 23 3C (73 5F) JP-4 Fuel (MIL-T-5624) Skydrol* 500 Hydraulic Fluid (MIL-H-5606) Aviation Gasoline 100/130 (MIL-G-5572) Salt Water (5% salt) Anti-icing Fluid(MIL-A-8243) Lubricating Oil (MIL-L-7808) Followed by tests for: Dielectric Strength TEST METHOD --- Volts/mil (Volts/mm) psi (kPa) 15 maximum and selfextinguishing Rating of 1 or less 600 minimum (23,500) 2000 minimum (13.720) * Trademark, Monsanto Company If this document is printed it becomes uncontrolled. Check for the latest revision. Section 4.3.8 ASTM D 2671 Section 4.3.9.1 U.L.Subj. 224 Section 4.3.9.2 ASTM D 876 ASTM G 21 Section 4.3.11 Section 4.3.7 ASTM D 149 Section 4.3.2 ASTM D 2671