Material Selector

Condition firstApplication drivenQuotation ready

Start with the system conditions, not a product code.

A useful recommendation connects thermal boundaries, vacuum behavior, geometry, installation, qualification, and delivery form. The sequence below is the basis for a technical RFQ.

InputsMedium / temperature / vacuum / geometry / heat-leak target / delivery form

Selection model

Connect the installed system to the material stack.

Use this structure to describe where reflective layers, spacers, fixing tapes, protection, and vacuum support sit in the final package.

MLI material structureRadiative heat path
Warm boundary
Reflective layer
Low-conduction spacer
Reflective layer
Low-conduction spacer
Reflective layer
Low-conduction spacer
Reflective layer
Low-conduction spacer
Reflective layer
Low-conduction spacer
Cold boundary

Project parameters

Share the system conditions that guide material selection.

Fill in the information already known to your team. The form keeps the RFQ focused on medium, temperature, vacuum, geometry, processing, and delivery requirements.

Unit quick converters

Use these small converters only as a drafting aid while preparing project data. Final engineering values should follow the project specification.

Pressure quick converter
Common vacuum references: High vacuum: < 1e-3 Pa · Soft vacuum: ~1 torr = 133.322 Pa · Atmosphere: 1 atm = 101325 Pa
Size quick converter
Enter a value to convert.
Weight quick converter
Enter a value to convert.
Target vacuum level

You do not need to complete every field. Submit the known information first; drawings, photos, and existing specifications can be attached after the email opens.

Selection flow

Define the environment

Cryogenic medium, hot and cold boundaries, normal and transient temperatures, vacuum target, gas load, and service duration.

Define the installed geometry

Tank, pipe, shield, cable, blanket, supports, penetrations, joints, access limits, and acceptable layer density.

Define the material package

Core MLI, fixing and seams, protection, vacuum support, processing, packaging, documents, and qualification responsibilities.

Choose an application

Open the closest engineering case, then refine the parameters.

LNG / LN2 / LOX Storage & Transport cryogenic insulation applicationLNG, LN2, LOX · 77 K-111 K

LNG / LN2 / LOX Storage & Transport

Reduce heat leak and boil-off in vacuum-insulated tanks and transport vessels while keeping the insulation package practical to install and inspect.

Recommended systemCold boundary · Core insulation · Fixing and seams · Protection and vacuum support
Recommended productsCryoMLI 101 · CryoMLI 102 · CryoMLI 202 · CryoMLI 212 +5

We review application parameters and reply by email with material-selection guidance.

Liquid Hydrogen Systems cryogenic insulation applicationLH2 · 20 K

Liquid Hydrogen Systems

Balance very-low-temperature heat-leak targets with pump-down, low-outgassing material selection, complex geometry, and installation repeatability.

Recommended systemCold wall · Density-managed MLI · Low-outgassing fixing · Vacuum support
Recommended productsCryoMLI 202 · CryoMLI 302 · CryoMLI VDMix · CryoTape PI +2

We review application parameters and reply by email with material-selection guidance.

Liquid Helium / MRI / Superconducting Magnets cryogenic insulation applicationLHe · 4 K

Liquid Helium / MRI / Superconducting Magnets

Control heat leak at 4K while preserving vacuum stability, clean installation, thermal-cycle durability, and service access around magnet systems.

Recommended system4K boundary · Reflective insulation · Controlled fixing · Protection
Recommended productsCryoMLI 102 · CryoMLI 302 · CryoTape AlF · CryoTape ACP +3

We review application parameters and reply by email with material-selection guidance.

Vacuum Jacketed Piping & Cold Box cryogenic insulation applicationLN2, LOX, LNG, LH2 · 20 K-111 K

Vacuum Jacketed Piping & Cold Box

Prepare consistent insulation packages for long runs, bends, penetrations, valve boxes, and maintainable field joints.

Recommended systemProcess line · Wrapped MLI · Seaming and reinforcement · Vacuum jacket
Recommended productsCryoMLI 201 · CryoMLI 202 · CryoMLI 212 · CryoTape AlF +4

We review application parameters and reply by email with material-selection guidance.

Aerospace & Rocket Thermal Control cryogenic insulation applicationCryogenic propellant and vehicle thermal control · Mission and zone dependent

Aerospace & Rocket Thermal Control

Integrate lightweight insulation and fixing materials around vehicle geometry, vibration loads, thermal cycling, cleanliness constraints, and installation interfaces.

Recommended systemVehicle interface · Thermal-control insulation · Localized fixing · External protection
Recommended productsCryoMLI 102 · CryoMLI 302 · CryoMLI VDMix · CryoTape PI +2

We review application parameters and reply by email with material-selection guidance.

Satellite MLI Blankets & External Thermal Protection cryogenic insulation applicationSpacecraft thermal control · Mission dependent

Satellite MLI Blankets & External Thermal Protection

Prepare low-mass blanket structures with controlled openings, clean edges, low-outgassing fixing, and geometry matched to spacecraft interfaces.

Recommended systemSpacecraft surface · MLI blanket · Edges and attachments · Outer protection
Recommended productsCryoMLI 102 · CryoMLI 302 · CryoTape PI · CryoTape MAP +1

We review application parameters and reply by email with material-selection guidance.

Fusion / Accelerator / Research Cryogenics cryogenic insulation applicationLHe, LN2, large vacuum systems · 4 K-138 K

Fusion / Accelerator / Research Cryogenics

Support large, segmented, and maintainable cryogenic modules while controlling radiation heat load, vacuum behavior, access, and installation sequencing.

Recommended systemCold module and shields · Segmented MLI · Seams and protection · Vacuum maintenance
Recommended productsCryoMLI 202 · CryoMLI 302 · CryoMLI VDMix · CryoTape FiG +3

We review application parameters and reply by email with material-selection guidance.

Superconducting Cable & Power Systems cryogenic insulation applicationLN2, LHe where applicable · 4 K-77 K

Superconducting Cable & Power Systems

Insulate long cable runs and joints while controlling installation consistency, handling damage, thermal bridges, and material preparation cost.

Recommended systemCable cryostat · Long-run MLI · Fixing and reinforcement · Vacuum envelope
Recommended productsCryoMLI 202 · CryoMLI 212 · CryoMLI 302 · CryoTape ACP +4

We review application parameters and reply by email with material-selection guidance.

Space & Deep Cryogenic Missions cryogenic insulation applicationSpace vacuum and deep cryogenic payloads · Mission dependent, including 4K-class zones

Space & Deep Cryogenic Missions

Develop mission-specific material packages for multiple thermal zones, long-duration vacuum exposure, strict contamination limits, and geometry that may not permit conventional installation.

Recommended systemMission boundary · Zone-specific MLI · Qualified fixing · Protection and vacuum support
Recommended productsCryoMLI 102 · CryoMLI 302 · CryoMLI VDMix · CryoTape PI +3

We review application parameters and reply by email with material-selection guidance.