PTFE, 25% Glass Filled Slide Plates

PTFE, 25% glass filled slide plates are primarily used in low heat and high velocity conditions; however, this material can be used in high heat applications in conjunction with other materials. We also use this type of slide plate where there is high wear resistance, no surface treatments necessary or is unaffected by weather conditions.

Types & Sizes

PTFE Standard Assembly
Temperature & Friction Graphs
Specification

Technical Information

PTFE, 25% Glass Filled Slide Plates
Selection Chart – Slide Bearing Plate
Slide Plate Applications

Installation & Maintenance

Prior to Welding: Locate the slide plate base in the appropriate position on the existing steel surface. Place a protective covering on the PTFE, 25% glass filled. Where seal welding is not required, follow the diagram shown which indicates 1/8” thick fillet weld, 1” long every 4” around the entire perimeter of the base. For welding, use GMAW 0.035 wire or SMAW 3/32″ stick.

Where full seal welding is required, use a similar pattern of welding until a full weld is obtained. This method will prevent damage to the PTFE, 25% glass filled. (A full weld will help prevent seepage of water between the slide bearing plate and the support structure.) Avoid overheating, which may destroy the bonding of the PTFE, 25% glass filled to the base plate.

Installation in Concrete: When installing PTFE, 25% Glass Filled Slide Plate assemblies in concrete, anchor bolts will be integrated into the base plates for attachment to either the concrete form rebar structure or simply within the concrete itself.

Slide Plate Installation and Maintenance Guide

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Pipe Support Engineering & Design

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General Dimensions & Specifications

PTFE, 25% Glass Filled, Slide Plate
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PTFE Standard Assembly
Temperature & Friction Graphs
Specification

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PTFE Standard Assembly

Slide Plate – PTFE Diagram A

ASSEMBLY:

Standard Assembly: 2 units of 3/32″ PTFE, 25% glass filled, bonded to 1/8″ carbon steel. For field tack welding. 1/2″ lip. Loads to 2000 PSI, Temperature: -320°F to +500°F

Full Weld Assembly:
2 units of 3/32″ PTFE, 25% glass filled, bonded to indicated backing material with 1/2″ lip all around for full welding. Loads to 2000 PSI, Temperature: -320°F to +500°F

PART # — PTP — 3/32″ TFE — 10 Ga. SS — 1/2″ LIP AND SIZE

ORDERING:
1. Please specify the dimensions of the upper plate and dimensions of the lower plate. It is common practice that the upper plate is generally larger than the lower plate.
2. Specify lip dimension (if different than the standard 1/2″).
3. Specify base plate thickness (if different than standard 1/8″).

ADVANTAGES:

• Ease of installation.
• No setting problems.
• Low coefficient of friction.
• No surface treatments, grouting, or expensive mechanical attachment necessary.
• Chemically inert.
• Unaffected by weather conditions.
• Ability to absorb dirt and grit within itself.
• Self-aligning when used in conjunction with elastomeric backing pads.

APPLICATIONS:

• Bridges: Highway bridges, overpasses, railroad bridges.
• Architectural in Wood, Concrete or Steel: Cross beam and girder slip joints, roof slabs and corbels, vibration pads, airport hangar doors, domes.
• Industrial: Heat exchangers, dust collectors, heavy machinery, refinery equipment, wind tunnels, penstocks, vessels, pipelines, air preheaters, atomic energy applications, transmission towers, storage tanks, offshore drilling rigs.

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Effect Of Temperature

Pg168

It has been determined from basic testing that the “ideal” thickness of PTFE, 25% Glass Filled, should be 3/32”. If the design engineer follows the given chart (left) for the Effect of Temperature on PTFE, 25% Glass Filled, there will not be a failure.

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Coefficient Of Friction

Diagram b

The Coefficient of Friction of PTFE, 25% Glass Filled, slide plates has been reported to be from 0.01 to 0.2. This depends on the surface preparation, loading, velocity, and the duration of the test. Bonding PTFE, 25% Glass Filled, to metal increases the load capabilities in excess of 2,000 PSI (For design purposes, use 500 PSI). This table shows the coefficient of friction due to the load applied. A maximum coefficient of 0.1 can be used in PTFE, 25% Glass Filled, slide bearing designs without considering sliding speed, temperature, or maintenance.

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	Property	Value	ASTM Test Method
Mechanical	Specific Gravity Measured	2.1-2.3	D638
	Water Absorption (%)	0.013	D570-59T
	Hardness, Shore D @ 78°F @ 300°F	57 56	D2240
	Wear Factor K	Less than 10 x 10^-10
	Tensile Strength (PSI)	2,000 min.	D1457-56T
	Tensile Elongation	200 - 250	D1457-56T
	Flexural Strength (PSI)	606	D790-59T
	Modules (PSI)	2.93 x 10⁵	D638
	Compressive Strength (PSI) 0.2% offest	1870	D790-59T
	Deformation at 78°F, 200 PSI 24 hr. Permanent Deformation (%)	7.1 3.9	D621-59 (modified)
	Deformation at 78°F, 200 PSI 100 hr. Permanent Deformation (%)	8.9 4.4
	Coefficient of Friction	0.06 for loads > 500 PSI static	Modified
Electrical	Dielectrical Strength in air (v per mil)	327	D149A
	Dielectrical Constant @ 60 cps	2.63	D150-54T
	Volume Resistivity (ohm-cm)	10¹³	D257-57T
Thermal	Coefficient of Linear Thermal Expansion (per °F)	6.89 x 10^-5	D694-44
	Coefficient of Thermal Expansion Conductivity (Btu-In.) hr-sq. (ft. °F)	3.12	Cenco-Fitch
	Continuous Service Temperature	550	Various
	Weatherability	Unaffected	Physical exposure

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