PTFE TUBING JT-200, JT-250, JT-400

About PTFE Tubing JT-200, JT-250, JT-400

Jaguar Industries' JT-200, JT-250, and JT-400 are non-shrinkable extruded PTFE (polytetrafluoroethylene) tubings engineered for extreme environmental conditions requiring chemical inertness, wide temperature range capability, and maintained flexibility throughout the operating range. These three product lines offer different wall thicknesses to meet varying application requirements: JT-250 standard wall for general-purpose applications, JT-200 thin wall for weight-sensitive installations, and JT-400 light wall for maximum flexibility. Meeting stringent military and aerospace specifications including JT-224, JT-250 AMS 3653 and MIL-1-22129, JT-200 AMS 3655, and JT-400 AMS 3654, these PTFE tubings are designed to operate continuously from -65°C to 260°C, providing exceptional temperature capability for cryogenic to high-temperature applications. The polytetrafluoroethylene material is chemically inert and maintains flexibility throughout the entire operating temperature range, making these products ideal for chemical processing, aerospace fluid transfer, laboratory instrumentation, semiconductor manufacturing, and pharmaceutical applications. Available in translucent white natural color as standard, with ten RETMA EIA colors available for color-coding applications. Comprehensive size range from AWG 30 (0.012" nominal I.D.) through 1-1/2" sizes accommodates applications from fine wire insulation to large industrial fluid transfer lines. JT-250 standard wall offers 42 sizes with wall thicknesses from 0.009" to 0.045", providing robust mechanical protection for general applications. JT-200 thin wall provides 37 sizes with reduced wall thicknesses from 0.009" to 0.025", ideal for weight-sensitive aerospace and medical applications requiring flexibility. JT-400 light wall delivers 37 sizes with minimal wall thicknesses from 0.006" to 0.020", maximizing flexibility for tight-radius installations and applications requiring minimal material. Packaging includes convenient reels or coils for smaller sizes, with sizes above 3/4" diameter supplied in cut lengths for handling convenience. The non-shrinkable extruded construction provides consistent dimensions throughout the length, ensuring reliable fit and performance. PTFE material properties include exceptional chemical resistance to virtually all industrial chemicals, solvents, acids, and bases; low coefficient of friction for fluid transfer applications; excellent dielectric properties for electrical insulation; non-flammability and self-extinguishing characteristics; FDA compliance for food and pharmaceutical applications; biocompatibility for medical device applications; and outstanding weathering resistance for outdoor installations. Perfect for aerospace fuel and hydraulic line protection, chemical processing plant fluid transfer, semiconductor manufacturing wet process tubing, pharmaceutical and biotech fluid handling, laboratory instrumentation sample lines, medical device component insulation, industrial chemical transfer applications, cryogenic fluid handling, high-purity water systems, food and beverage processing equipment, telecommunications cable jacketing requiring chemical resistance, military electronics wire insulation in extreme environments, automotive fuel injection system protection, oil and gas industry chemical injection lines, analytical instrumentation capillary tubing, and any application requiring non-shrinkable PTFE tubing with exceptional chemical inertness, wide temperature capability, maintained flexibility, and compliance with military and aerospace specifications. The combination of three wall thickness options, comprehensive size range from micro-miniature to large diameter, temperature rating from -65°C to 260°C, complete chemical inertness, multiple military and aerospace certifications, and availability in natural or ten RETMA colors makes the JT-200/JT-250/JT-400 family the most versatile non-shrinkable PTFE tubing solution for demanding applications where standard materials cannot withstand the extreme chemical exposure, temperature extremes, or performance requirements.