Specs

What Are Aerospace Tape Specifications?

An aerospace tape specification is a formally defined standard that establishes:

• material requirements
• performance thresholds
• testing procedures
• qualification criteria

for tapes used within aerospace environments.

These specifications exist because aerospace operating conditions are highly demanding.

Tapes used on aircraft or within aerospace manufacturing may be exposed to:

• temperature cycling
• aerodynamic loading
• chemical exposure
• UV degradation
• pressure variation
• vibration

A specification ensures the tape has been:

• tested
• verified
• documented

before being approved for use.

What Specifications Govern

Specifications typically define:

• backing material composition
• adhesive chemistry
• thickness tolerances
• tensile strength
• elongation
• peel adhesion
• thermal capability
• flame resistance
• chemical resistance
• dimensional consistency

Qualification Process

Before a manufacturer can state that a product meets a specification:

• controlled testing must be completed
• performance data must be documented
• qualification records must be maintained

That qualification data becomes part of the product’s formal aerospace documentation.

How Specifications Are Used

Engineers and procurement teams use specification codes when:

• creating maintenance documentation
• approving repair procedures
• defining manufacturing processes
• sourcing materials
• creating build records

In aerospace, materials are typically specified by:

• specification code first
  and:
• manufacturer second

Traceability Requirements

Aerospace quality systems such as:

• AS9100
• NADCAP
• OEM quality systems

require traceability between:

• the tape used
• the manufacturer
• the qualification documentation
• the production batch

This traceability is supported through:

• datasheets
• Certificates of Conformance
• batch records

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WHY SPECIFICATIONS MATTER IN AEROSPACE

Why Aerospace Tape Specifications Matter

Specification compliance is fundamental within aerospace environments.

Safety

Aircraft materials operate in demanding conditions involving:

• aerodynamic forces
• thermal cycling
• chemical contamination
• moisture exposure
• UV exposure

A specification ensures a tape has been tested against those conditions before use.

Without qualification:

• there is no verified evidence of performance

Regulatory Compliance

Certain specifications carry direct regulatory importance.

For example:

• FAR 25.853(a)

governs flame resistance for materials used in defined aircraft environments.

Using non-compliant materials in regulated locations creates:

• engineering risk
• compliance violations
• certification problems

Traceability

Maintenance and manufacturing records must document:

• the specification used
• the product used
• the production batch

This supports:

• airworthiness records
• audit compliance
• incident investigation
• maintenance traceability

Environmental Performance

Specifications define measurable performance requirements such as:

• operating temperature
• peel adhesion
• burn resistance
• chemical resistance
• dimensional stability

This removes ambiguity from material selection.

Procurement Efficiency

Aerospace procurement is specification-driven.

Procurement teams:

• reference approved specifications
• source qualified products
• require CoC documentation
• avoid unverified open-market sourcing

How Engineers Search

In practice, aerospace engineers often search using:

• specification codes

rather than:

• generic product descriptions

Examples include:

• AMS-T-23397B
• FAR 25.853(a)
• BMS5-146 Rev D

Specification codes form the language of aerospace material selection.

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COMMON AEROSPACE SPECIFICATION TYPES

AMS Specifications — SAE Aerospace Material Specifications

AMS specifications are issued by:

• SAE International

They represent one of the primary aerospace material qualification systems used globally.

Who Uses AMS Specifications

• Aircraft manufacturers
• MRO organisations
• Aerospace suppliers
• Defence contractors
• Procurement teams

Why AMS Specifications Matter

AMS standards define:

• material composition
• performance thresholds
• test methods
• qualification procedures

Products meeting AMS standards have undergone:

• controlled testing
• independent verification
• documented qualification

Key Aerospace Tape AMS Specification

AMS-T-23397B

The primary aerospace specification for:

• aluminium foil pressure-sensitive adhesive tape

Defines:

• Type I (linered)
• Type II (self-wound)

and governs:

• peel adhesion
• tensile strength
• flame resistance
• temperature capability

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MIL Specifications — U.S. Military Standards

MIL specifications are:

• U.S. Department of Defense standards

Many predate AMS standards and remain active within:

• defence aviation
• military procurement
• legacy aerospace documentation

Key MIL Tape Specification

MIL-T-23397

Legacy military specification for:

• aluminium foil aerospace tape

Closely aligned with:

• AMS-T-23397B

Still referenced within:

• defence procurement
• older maintenance documentation

Federal Specifications

Related specifications include:

• L-T-80B
• L-T-80C

which frequently appear alongside AMS references on aerospace tape datasheets.

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BMS Specifications — Boeing Material Specifications

BMS standards are:

• Boeing-controlled qualification standards

They govern materials approved specifically for:

• Boeing aircraft
• Boeing maintenance programmes
• Boeing manufacturing environments

Why BMS Qualification Matters

An AMS-compliant product is not automatically:

• Boeing-approved

BMS qualification requires:

• Boeing engineering review
• OEM-specific approval
• aircraft programme evaluation

Key Boeing References

Examples include:

• BAC 5514
• BAC 5332
• BAC D6-34501

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ABS Specifications — Airbus Material Specifications

ABS standards are:

• Airbus-controlled qualification systems

They govern materials approved for:

• Airbus aircraft
• Airbus maintenance
• Airbus manufacturing environments

Key Airbus Reference

ABS 5604A

Airbus material specification for:

• aluminium foil aerospace tape

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FAA-Related References — FAR 25.853(a)

FAR 25.853(a) defines:

• flame-resistance requirements

for materials used within aircraft environments.

Why FAR 25.853(a) Matters

The regulation requires:

• vertical burn testing
• pass/fail qualification

for materials used in governed aircraft areas.

A product either:

• passes
  or:
• fails

There is no partial compliance.

Typical FAR 25.853(a) Environments

• Aircraft interiors
• Wire harnessing
• Cargo areas
• Cabin structures

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ASTM Test Standards

ASTM standards define:

• testing methods
• measurement procedures
• performance evaluation methods

ASTM standards are not qualification specifications themselves.

They define:

• how testing is performed
• how results are measured
• how manufacturers generate comparable data

Key ASTM References

ASTM D3330

Peel adhesion testing.

ASTM D3759

Tensile strength and elongation testing.

ASTM D1000

Pressure-sensitive adhesive tape testing.

These methods create consistency between manufacturer performance data.

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FEATURED SPECIFICATION CATEGORIES

Aluminium Foil Tape Specifications

Aluminium foil tape specifications govern:

• aviation speed tape
• temporary aircraft repairs
• thermal management
• sealing applications

Primary references include:

• AMS-T-23397B
• MIL-T-23397
• L-T-80B
• L-T-80C

Common Aerospace Environments

• Aircraft exterior surfaces
• MRO repairs
• Sealing applications
• Thermal reflection zones

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High-Temperature Tape Specifications

High-temperature tapes are designed for:

• service above 150°C
• thermal cycling
• elevated process environments

These systems typically use:

• silicone adhesives
• polyimide backings
• PTFE constructions
• high-temperature foil systems

Common Environments

• Engine nacelles
• Composite autoclaves
• APU compartments
• Thermal protection zones

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PTFE Tape Specifications

PTFE tapes are specified for:

• chemical resistance
• non-stick performance
• high-temperature stability
• low-friction interfaces

Common PTFE constructions include:

• skived PTFE film
• PTFE-coated glass cloth
• expanded PTFE sealing systems

Common Environments

• Composite tooling
• Chemical masking
• High-temperature process applications
• Mechanical interface protection

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Silicone Tape Specifications

Self-amalgamating silicone tapes create:

• seamless wraps
• waterproof seals
• insulating barriers

without traditional adhesive systems.

Typical Aerospace Uses

• Wire harness protection
• Connector sealing
• Electrical insulation
• Fluid-resistant wrapping

Relevant Standards

• MIL-I-46852
• related silicone insulation standards

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EMI and Conductive Tape Specifications

Conductive tapes are specified for:

• EMI shielding
• grounding continuity
• RFI protection

These systems use:

• conductive foil backings
• conductive adhesive systems

Key Performance Metric

• surface resistance
• measured in milliohms per square

Common Environments

• Composite airframes
• Avionics enclosures
• Grounding systems
• Wire harness shielding

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Flame-Resistant Tape Specifications

Flame-resistant tapes must meet:

• FAR 25.853(a)

for use within governed aircraft environments.

Common Applications

• Aircraft interiors
• Wire bundles
• Cargo liners
• Cabin insulation systems

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Aircraft Surface Protection Tape Specifications

Surface protection systems are governed through:

• OEM qualification systems
• Boeing BMS standards
• Airbus ABS standards

Performance Requirements

• Rain erosion resistance
• UV stability
• Conformability
• Clean removability
• Surface protection durability

Common Environments

• Leading edges
• Radomes
• Composite skins
• Control surfaces

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Aerospace Masking Tape Standards

Masking tapes used within aerospace processes must meet:

• temperature requirements
• solvent resistance requirements
• clean-removal standards
• process compatibility requirements

Common Environments

• Paint shops
• Chemical milling
• Anodising lines
• Electroplating operations
• Surface finishing

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HOW SPEEDTAPES SUPPORTS SPECIFICATION RESEARCH

Structured Specification Research

SpeedTapes organises aerospace specification data into:

• structured specification pages
• manufacturer references
• category navigation
• cross-reference systems
• technical resource content

Manufacturer References

Manufacturer pages list:

• specification qualifications
• relevant product families
• application categories
• material technologies

Tape Category Navigation

Category pages connect:

• material systems
• tape categories
• specifications
• manufacturers

within a single structure.

Cross-Reference Capability

Where standards overlap or align:

• AMS ↔ MIL
• OEM ↔ industry standards

SpeedTapes maps those relationships.

Technical Resources

Additional technical content supports:

• specification interpretation
• material comparison
• aerospace applications
• procurement workflows

RFQ Support

The platform also supports:

• sourcing guidance
• distributor identification
• manufacturer routing
• specification-based procurement workflows

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THE SPEEDTAPES SPECIFICATION DATABASE

Specification Database Structure

The SpeedTapes specification database is organised around:

• AMS standards
• MIL standards
• BMS standards
• ABS standards
• Federal specifications
• FAR requirements

Search Methods

Users can navigate:

• by specification code
• by application
• by material type
• by manufacturer
• by OEM programme

Specification Page Structure

Each specification page includes:

• plain-language explanations
• tape category references
• performance thresholds
• test method references
• manufacturer mappings
• application guidance

Ongoing Updates

The database evolves as:

• specifications are revised
• new products are introduced
• qualification standards change

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NAVIGATING THE PLATFORM

Specification Navigation Areas

The platform includes:

• AMS specifications
• MIL specifications
• OEM specifications
• FAR references
• material categories
• manufacturer references
• application guides

Tape Category Navigation

Key tape categories include:

• aluminium foil tapes
• PTFE tapes
• silicone tapes
• conductive tapes
• flame-resistant tapes
• polyurethane protection films
• masking tapes

Manufacturer Navigation

Major aerospace manufacturers include:

• 3M
• Saint-Gobain
• Polyken
• Nitto
• Scapa
• PPI
• IPG

Aerospace Applications

Specification content also connects to:

• temporary aircraft repairs
• composite manufacturing
• EMI shielding
• thermal management
• aerospace masking
• MRO operations

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TECHNICAL RESOURCES

Aerospace Tape Specification Guides

Technical guides explain:

• qualification systems
• specification structures
• aerospace material standards
• testing requirements

Spec Code Explainers

Dedicated resources cover:

• AMS-T-23397B
• MIL-T-23397
• FAR 25.853(a)
• OEM standards

Material Comparisons

Comparison resources evaluate:

• acrylic vs silicone adhesives
• aluminium vs polyimide backings
• linered vs self-wound formats

Application Guides

Application content connects:

• specifications
  to:
• real aerospace environments

including:

• composite curing
• MRO repairs
• EMI shielding
• thermal management

Aerospace Adhesive Guides

Technical resources also cover:

• acrylic adhesive systems
• silicone adhesive systems
• conductive adhesives
• rubber-based adhesive technologies

Aerospace Tape Glossary

The glossary defines:

• specification terminology
• aerospace procurement language
• testing references
• material categories