OEM ODM Fireproof Bags Manufacturer

Premium Custom Fireproof Bag · OEM/ODM · Retail-Grade Quality Control

A fireproof bags manufacturer specializes in producing flame-resistant storage bags using multilayer materials such as silicone-coated fiberglass, aluminum foil fiberglass, and fire-retardant cotton. These bags withstand extreme temperatures (800–1200°C), prevent flame spread, and protect documents, cash, lithium batteries, and valuables during fire hazards. A professional manufacturer provides OEM/ODM support, UL94/SGS/EN testing guidance, heat-insulated structures, and certifications for global safety compliance.

At Lovrix, we combine textile R&D, industrial material sourcing, OEM/ODM engineering, and 18+ years of manufacturing experience to produce custom fireproof bags that meet global standards for home safety, lithium battery protection, banking, emergency kits, and industrial applications.

Lovrix Fireproof Bag Advantages

In-house R&D for fiberglass fabrics, silicone coatings, and FR (fire-retardant) composites
Multi-layer engineering for 800°C to 1200°C fire resistance
OEM/ODM capability: custom sizes, structures, coatings, aluminum-foil reinforcement, vents
Support for UL94 V-0, SGS flame test, EN 407, and temperature resistance testing
Ability to manufacture lithium battery fireproof & explosion-mitigation bags
Stable supply chain + low MOQ + fast sampling cycles

Common Buyer Pain Points We Solve

Uncertain whether the bag truly meets real fireproof standards
Need UL94 V-0 / SGS reports for Amazon/retail compliance
Want higher endurance (1000–1200°C) but unclear which materials fit the requirement
Need multi-layer structure for lithium battery charging/transport
Concerns about fiberglass shedding and user skin irritation
Require premium, durable stitching that won’t melt under heat
Need a professional supplier with actual material engineering—not a simple cut-and-sew workshop

Why Fireproof Bags Are an Issue Worth Taking Seriously

Fireproof bags are safety products, not fashion accessories. Any mistake in materials, structure, or testing can lead to catastrophic failure during a real fire or battery thermal event.

Fireproof bags are increasingly required for home safety, banking, emergency preparedness, drones, RC models, electric bikes, solar power storage, and electronic consumer products. Poor-quality fireproof bags can cause:

Rapid flame penetration due to incorrect fiberglass weave or coating
Toxic smoke from low-grade coatings
Melting zippers that fail instantly under heat
Burn-through of lithium battery bags during thermal runaway
Catastrophic property loss when documents, cash, and valuables are not truly protected
Amazon/retail compliance rejection when materials cannot pass UL94 V-0 or SGS flame tests

A professionally engineered fireproof bag must balance:

✔ Flame resistance
✔ Heat insulation
✔ Structural integrity
✔ Smoke mitigation
✔ Usability
✔ Certification readiness

This is why choosing a truly specialized fireproof bag manufacturer is essential.

Key Factors When Developing Custom Fireproof Bags

Fireproof bag design requires a strict engineering-based approach combining material selection, temperature rating, layering, hardware durability, and global safety standards.

1. Material System Selection (Fabric + Coating + Inner Layers)

The material system determines 80% of fireproof performance.

Common Fireproof Materials We Supply

Material Type	Temperature Resistance	Description	Typical Use
Silicone-Coated Fiberglass	1000°C peak	Non-flammable, flexible, smoke-resistant	Document bags / storage bags
Aluminum Foil Fiberglass	1200°C peak	Reflects heat radiation, high endurance	Lithium battery bags / industrial
Fire-Retardant Felt (FR Cotton)	600–800°C	Insulation layer	Middle-layer thermal buffer
Woven Fiberglass Fabric	800–1000°C	Base fireproof structure	Bulk protective covers
High-Temp Aluminized Fabric	1000–1200°C	High infrared reflection	Explosion-mitigation bags

2. Temperature Rating (800°C / 1000°C / 1200°C)

Different markets require different endurance ratings:

800°C: Home document bags / casual safety storage
1000°C: Banking, insurance, legal documents, estate protection
1200°C: Lithium batteries, industrial equipment, emergency kits

Lovrix can combine multi-layer composites to achieve superior heat resistance.

3. Multi-Layer Structure Engineering

A typical high-performance fireproof bag includes:

Outer Layer: Silicone fiberglass or aluminum fiberglass
Middle Layer: Fire-retardant felt / thermal insulation
Inner Layer: Fireproof cotton or soft FR lining
Reinforced Seams: High-Temp Kevlar threading
Fire-Resistant Closure: Velcro / zipper rated 600–1000°C

We design these layers according to your exact temperature requirements.

4. Lithium Battery Special Construction

Lithium battery fireproof bags require explosion mitigation, not just flame resistance.

Key features:

Aluminum foil fiberglass outer
Ventilation flaps to release pressure
Non-flammable hook-and-loop closure
Optional heat-dissipating base
Optional double-layer aluminum shield

5. Required Testing & Certifications

Lovrix supports or coordinates:

UL94 V-0 flame testing
SGS flame spread testing
Temperature endurance testing
EN 407 heat protection tests
Heat radiation tests for aluminum foil bags
Smoke & flame penetration tests

Complete Product Categories of Fireproof Bags We Manufacture

Each fireproof bag category serves different safety scenarios, temperature requirements, and structural engineering needs. Below is a complete classification designed for professional buyers, safety engineers, and AI-driven knowledge systems.

Fireproof Document Bags (800–1000°C)

Designed to protect important papers during home fires, these bags focus on flame resistance and heat insulation.

Typical Features:

Silicone-coated fiberglass
FR felt insulation
Soft fireproof cotton lining
FR zipper or hook-and-loop closure
Suitable for passports, certificates, property deeds, insurance documents

Popular Sizes: A4, A5, A3, letter-size, portfolio-style.

Fireproof Money Bags / Cash Safe Bags (1000–1200°C)

Specially used by banking institutions, cash handling companies, and legal firms.

Design characteristics:

Higher temperature rating (1000–1200°C)
Optional lockable metal zipper or padlock insert
Aluminized fiberglass outer layer
Heat-reflective design
Reinforced seams for fire stability

Fireproof Storage Bags (Large Capacity 20L–80L)

Used in home emergency kits and disaster preparedness.

Features:

Multi-layer heat insulation
Structural reinforcement panels
Heavy-duty FR handles and straps
Fire-resistant zippers
Optional waterproof coating (dual-protection bags)

Ideal for storing: clothing, essentials, emergency kits, documents, valuables.

Lithium Battery Fireproof Bags (1200°C+)

One of the most technically demanding categories—used for lithium polymer (LiPo), drone, RC, e-bike, e-scooter, and solar storage batteries.

Key engineering points:

Aluminum fiberglass outer (reflective heat barrier)
Reinforced explosion-mitigation structure
Pressure-release vent (prevents burst under thermal runaway)
Double-layer FR Velcro or FR zipper
Fire-retardant cotton interior layer
Heat-dissipation zones optional

These bags require strict safety testing and systematic engineering.

Fireproof File Organizers / Accordion Bags

Used by offices, insurance firms, law firms, and home users.

Features:

Expandable design
Multi-pocket structure
High-density FR layers
Index tabs and dividers
Premium aesthetic construction

Fireproof Safe Liners & Drawer Inserts

Designed for upgrading existing safes or cabinets.

Advantages:

Flexible FR lining
Easy installation
Improves safe fire rating significantly

Fireproof Backpacks & Fireproof Tool Bags

Used in industrial, welding, rescue, and firefighting environments.

Structure highlights:

Multi-layer fire-resistant outer shell
FR stitching
Industrial-grade zippers
Reinforced load-bearing points
Optional reflective strips

Industrial Fireproof Covers & Sleeves

Custom-designed for factories and equipment manufacturers.

Applications:

Machine covers
Cable sleeves
Welding protection bags
Heat-shield panels

Materials:

Aluminized fiberglass
Carbon fiber fabrics
High-temperature refractory textiles

Electronic Equipment Fireproof Bags

Designed for storing devices such as:

Hard drives
Laptops
Power banks
Camera equipment

Features:

Fireproof + anti-shock dual protection
Multi-layer padded FR structure
Static- and dust-resistant inner lining

Custom-Engineered Fireproof Solutions

Lovrix can build any new product from drawings, requirements or performance targets:

Fireproof tool rolls
Fireproof storage kits
Fireproof household bags
Industrial-grade fireproof shields
Multi-layer custom structures

Our strength: We design both the material system and the bag structure.

Our Engineering-Based OEM/ODM Solution for Fireproof Bags

A fireproof bag is a safety product, requiring engineering precision, material science, layered protection and strict testing. Lovrix uses a structured OEM/ODM development framework designed for brands, industrial clients and regulated markets.

Step 1

Application Analysis & Hazard Classification (Fire Type + Heat Source + Risk Level)

Before materials are selected, we conduct a complete hazard and usage analysis:

We identify:

What fire type is expected?
- A-Class (paper, documents)
- B-Class (liquids)
- Lithium battery thermal runaway
- Heat radiation exposure
Maximum expected temperature (800°C / 1000°C / 1200°C)
Required protection duration (5 min / 15 min / 30+ min exposure)
Transportation vs storage vs charging scenarios
Whether explosion mitigation is required
Home use / industrial use / e-commerce compliance

Outcome: A clear project specification + safety requirement list.

Step 2

Fireproof Material System Proposal (Multi-Layer Architecture)

Lovrix proposes 2–4 material combinations, each with different:

Outer fabric (silicone fiberglass / aluminum fiberglass / FR coated fabric)
Coating thickness & surface treatment
FR felt density (thermal insulation performance)
Inner fireproof lining (cotton/FR foam/aluminized fabric)
Sew lines using Kevlar thread
Closure type:
- FR zipper
- Double-layer Velcro
- Hook-and-loop with shielding flap
Optional add-ons:
- explosion-proof vents
- heat deflection panels
- smoke throttling flaps

Each option includes Temperature Rating, Cost Range, Weight, Certification Path, and Sample Lead Time.

Step 3

Structural Engineering & Heat Mapping Analysis

Based on the risk profile, we engineer:

Layer-by-layer thicknesses: Example: 0.5mm silicone fiberglass + 3mm FR felt + 0.4mm FR cotton
Heat penetration curves
Radiation reflection points (for aluminum foil layers)
High-risk zones:
- Corners (heat concentrates)
- Closure area (weak point)
- Seam transitions
Vent placement for lithium battery bags
Load-bearing reinforcement for heavy storage bags

We run heat mapping simulations to identify potential “burn-through points” and reinforce accordingly.

Step 4

Prototype Development with High-Temperature Sewing

Your first sample includes:

Fully accurate multi-layer structure
Reinforced Kevlar-thread seams
FR-rated zipper or double-layer Velcro
Heat-sealed edges
Optional internal compartments or battery pockets
Branding drafted for heat tolerance

Prototypes are stress-tested before shipping.

Step 5

Flame, Temperature & Penetration Testing

We provide internal or third-party testing:

Tests include:

1000°C flame exposure for 5–20 minutes
UL94 vertical burn test
SGS flame penetration test
Heat transfer measurement
Zipper/Velcro melt resistance test
Smoke penetration test
Lithium battery flame containment test
Explosion mitigation simulation

A full test report can be issued for Amazon, retail or industrial compliance.

Step 6

Pilot Batch (100–300 units)

Allows your team to evaluate:

Temperature stability
Consistency of lamination
Seam durability
Closure reliability
Packaging suitability

This phase reduces mass-production uncertainties.

Step 7

Mass Production with 7-Point QC System

ovrix executes:

Incoming Material QC
Coating Thickness QC
Layer Assembly QC
High-Temp Sewing QC
Zipper/Velcro FR QC
Dimensional & Structural QC
Final Heat Spot-test (random sampling)

Step 8

Packaging, Labeling & Certification Support

We provide:

Fireproof warning labels
Temperature rating labels
Amazon-ready retail boxes
Barcodes, FNSKU, inserts
Certification documentation package

This makes your product ready for global distribution.

Buyer Checklist – Questions to Ask Any Fireproof Bag Manufacturer

Fireproof bags vary dramatically in quality. A reliable manufacturer should confidently answer all of the questions below with data, certifications and engineering clarity.

Essential Technical Questions

What exact materials (thickness, coating, base fabric) are used? → Manufacturer should list GSM, coating thickness, fiberglass weave type.
Is the fiberglass coated or uncoated? → Uncoated fiberglass can shed fibers and irritate skin; avoid.
What temperature rating can the bag withstand? → 800°C? 1000°C? 1200°C? → Ask for test screenshots or real video evidence.
Is there FR felt inside? What density? → FR felt density affects insulation dramatically.
What thread is used for seams? → Kevlar or aramid mandatory for true fireproofing.
Do zippers/Velcro withstand heat, or will they melt? → Regular plastic zippers will fail instantly.
Does the bag pass UL94 V-0 or SGS flame tests? → A skilled manufacturer should have valid test reports.
What is the estimated flame-resistance time? → 5 min? 10 min? 30 min?
Does the bag resist flame and thermal penetration? → Many cheap bags resist flame but allow heat to pass through.
Can you provide multi-layer drawings? → Any real manufacturer should.

Lithium Battery–Specific Questions

Is the bag explosion-mitigation engineered?
Are pressure-release vents included?
Is there aluminum foil fiberglass for heat reflection?
Can the bag be used for charging batteries?

Manufacturing & Compliance Questions

Can you support Amazon FBA compliance?
Are there FR labels and safety warnings printed?
How do you reinforce heat-stress corners?
Can they customize fireproof packaging boxes?
Do they perform real heat tests on each batch?

If a supplier struggles to answer these questions, they are likely just a sewing workshop—not a real fireproof bag manufacturer.

Complete Manufacturing Processes for Fireproof Bags

Manufacturing fireproof bags requires advanced materials processing, high-temperature-resistant sewing technology, structural bonding methods, and multi-stage flame testing. Below is a deeply engineered breakdown of the complete manufacturing workflow.

1. Fireproof Material Preparation & Pre-Treatment

Before assembly, materials undergo:

Silicone coating line preparation
Fiberglass roll cutting and edge burnishing (to prevent fiber shedding)
Aluminum foil lamination
Fire-retardant felt density calibration
Moisture removal
Surface inspection under high-intensity lighting

Why it matters: Any surface defect becomes a burn-through point during fire exposure.

2. Multi-Layer Composite Cutting

Using digital laser or CNC cutting tables:

Outer layer cut with heat-sealed edges (anti-fray)
FR felt cut with precise tolerance (±1–2mm)
Aluminized fabric cut without cracking the foil
Inner FR cotton cut with soft-edge trimming

Cutting accuracy is crucial because even small misalignments can cause “thermal weak zones.”

3. Material Lamination (when required)

Some bags require lamination to improve bonding and insulation.

Methods:

High-temperature lamination (for silicone fiberglass)
Adhesive lamination (for aluminum foil to maintain reflectivity)
Spot bonding
Partial lamination for flex areas

Why it matters: Incorrect lamination can cause warping or delamination during fire exposure.

4. Reinforced Seam Construction (High-Temperature Sewing)

Sewing fireproof fabrics requires specialized machines and materials:

Thread types

Kevlar (400°C)
Aramid fiber
FR sewing line with anti-melt coating

Sewing requirements

Minimum 3.5–4.0 stitches/cm
Double-stitch reinforcement at stress points
Thick layers handled by industrial walking-foot sewing machines
Heat-resistant needle and tension control

Seam designs

Overlocked seam
Flat-locked seam
Hidden FR seam (premium)
Seam-sealed with FR tape

5. Closure System Installation

Depending on category:

FR Zippers

High melting point resin
Metal teeth preferred for 800–1000°C bags

FR Velcro (Hook & Loop)

Required for lithium battery bags
Double-layer protection for pressure resistance

Magnetic or locking systems

Used for cash/fireproof vault bags.

6. Structural Reinforcement Stage

Structural reinforcement is critical because heat attacks the weakest areas first.

Reinforcement techniques:

Corner reinforcement patches
High-temp binding tape
Thickened insulation on seam lines
Fold-over fire-resistant flaps on closures
Aluminum reinforcement panel for battery bags

7. Internal Component Assembly

Includes:

Document organizers
Battery pockets
Explosion-mitigation vent flaps
Elastic compartments
Soft FR linings

Each component must tolerate thermal stress.

8. Flame & Heat Testing Phase

Every production batch is tested with:

Direct flame exposure
UL94 vertical burn simulation
Heat penetration measurement
Zipper longevity test under heat
FR Velcro peel test at high temperature
Aluminum foil reflectivity test

For lithium battery bags:

Thermal runaway simulation (small-cell controlled test)
Pressure-release vent functionality test

9. Final Finishing & Aesthetic Processing

Edge trimming
Smoke-resistant odor treatment
Branding installation (FR-safe logo print or patch)
Surface cleaning
Final inspection under magnification camera

10. Packaging & Global Compliance

We provide:

Retail packaging engineering
Safety/warning labels
Multi-language instruction sheets
Amazon FBA–ready cartons
Certification documents for customs or retail audits

Our Experience & Representative Projects

Lovrix has developed more than 200+ fireproof bag projects across industries, each with different temperature, structural and compliance requirements.

Project 1 — Premium 1000°C Fireproof Document Bag (North America)

Client Need: A US emergency-preparedness brand required a highly durable document bag with no fiberglass shedding, suitable for retail stores and Amazon.

Lovrix Solution:

0.8mm Silicone-coated fiberglass
3mm FR felt
Soft FR cotton lining
Metalized fire-resistant zipper
Kevlar-thread seams
Full UL94 V-0 certification

Result: Product passed SGS and UL testing, top-seller on Amazon.

Project 2 — 1200°C Lithium Battery Charging Bag (EU Drone Brand)

Client Need: Safe charging for RC/Drone LiPo batteries, explosion suppression, and high heat reflection.

Lovrix Solution:

Double-layer aluminum fiberglass
Pressure-release venting system
Double Velcro + fold-over fireproof flap
Reinforced base with aluminized panel
Tested for thermal runaway scenarios

Result: Successfully used for drone battery charging and transportation; adopted by distributors across EU.

Project 3 — Fireproof Cash Safe Bag for Banking Institution

Client Need: High-temperature (1200°C) cash vault transport bag with lockable closure.

Lovrix Solution:

Aluminized fiberglass exterior
FR felt thermal barrier
Fireproof cotton interior
Metal zipper with heat-resistant pull
Optional padlock system

Result: Reduced fire risk during transfer; replaced outdated metal cash boxes.

Project 4 — Fireproof 80L Storage Bag for Disaster Preparedness Brand

Client Need: Large-capacity fireproof storage for emergency kits.

Lovrix Solution:

Multi-layer construction for >1000°C
Structural panel reinforcement
Heavy-duty FR handles
Industrial-grade zippers
Heat-resistant seams

Result: Adopted by major preparedness resellers.

Technical Specifications & Material Options

We provide a complete technical matrix for fireproof bag design.

Table 1 — Fireproof Material Performance Matrix

Material Type	Temp Rating	Thickn ess Options	Structure	Advantages	Applications
Silicone Fiberglass	1000°C	0.4–0.8mm	Fiberglass + silicone coating	Flexible, anti-irritation	Document bags
Aluminum Foil Fiberglass	1200°C	0.5–1.2mm	FG fabric + dual aluminum foil	Heat reflection, extreme protection	Battery bags
FR Felt (Insulation)	600–800°C	2–6mm	Compressed fire-retardant felt	Thermal insulation	Middle layers
FR Cotton	500–700°C	0.5–1.0mm	Soft FR fibers	Anti-scratch interior	Inner lining
Aluminized High-Temp Fabric	1000–1200°C	0.5–1.0mm	Reflective film + fiberglass	Explosion mitigation	High-end battery bags

Table 2 — Closure & Seaming Specifications

Component	Rating	Notes
FR Zipper	>600°C	Prevents melt-failure
Double-Layer Velcro	500–700°C	Ideal for battery bags
Kevlar Thread	>400°C	High strength, heat resistant
FR Binding Tape	>600°C	Reinforced seam edges

Table 3 — Structural Configuration Options

Configuration	Layers	Temp	Weight	Use Case
Standard Document Bag	3 layers	800–1000°C	Light	Documents
Banking Bag	4 layers	1000–1200°C	Medium	Cash vault
Lithium Battery Bag	4–5 layers	1200°C	Medium	Charging/transport
Explosion-Mitigating Bag	5+ layers	1200°C+	Heavy	Industrial batteries
Large Storage Bag	3–4 layers	1000°C	Medium–Heavy	Emergency kits

Industries & Applications We Serve

Fireproof bags are used across safety, industrial, retail and technological landscapes.

Home Safety & Emergency Preparedness

Document bags
Valuables bags
Photo, jewelry, passport protection
Large-capacity emergency storage
Fireproof safe organizers

Banking, Finance & Legal Institutions

Document bags
Valuables bags
Photo, jewelry, passport protection
Large-capacity emergency storage
Fireproof safe organizers

Lithium Battery Safety (RC, Drone, E-bike, Solar Storage)

Charging bags
Transport bags
Thermal runaway suppression bags
Explosion-suppressing containers

Applications with highest risk and strictest requirements.

Industrial & Welding Equipment

Fireproof tool bags
Protective sleeves
Heat-shield covers
Fire-resistant cable organizers

Industrial & Welding Equipment

Premium fireproof document bags
Fireproof money bags
Fireproof storage totes
Giftable retail packaging
Multi-size household fireproof kits

Government, Rescue & Public Safety

Civil defense gear bags
Emergency response bags
Public safety document protection

Quality & Certifications

Certified by ISO9001, OEKO-TEX100, GRS, and Higg Index, Lovrix ensures every bag product meets global compliance standards. We implement strict QC at every stage, from yarn to final packaging.

FAQ – Fireproof Bags Manufacturing & Compliance

Q1: What temperature can your fireproof bags withstand? Our bags are engineered using silicone fiberglass or aluminum fiberglass capable of withstanding 800°C to 1200°C peak temperatures. Temperature endurance depends on the chosen material system, layer thickness, and insulation configuration.

Q2: Can you provide UL94 V-0 test reports? Yes. We support UL94 V-0, SGS flame testing, EN 407, and temperature penetration tests. Reports can be provided upon request or applied specifically for your customized product.

Q3: Are your fireproof bags safe for lithium battery charging? Yes. Our LiPo fireproof bags are designed with aluminum fiberglass, pressure-release vents, and double fire-resistant closures to mitigate thermal runaway events during charging or storage.

Q4: Do fireproof bags prevent explosions? Fireproof bags mitigate explosion effects but cannot fully eliminate risks. Our lithium battery bags include reinforced aluminum layers and venting designs to control pressure release and flame spread.

Q5: Can I customize the size, color, or branding? Absolutely. We support any size from small document bags to 80L storage bags, as well as custom colors, logos, embossing, reflective labels and retail packaging.

Q6: What is your MOQ? Typically 300–500 units depending on material and structure, but lower MOQ is possible for new project validation.

Q7: How long does sampling take? 7–12 days for standard fireproof bags and 12–20 days for multi-layer lithium battery bags due to extra reinforcement.

Q8: What affects the price of fireproof bags the most? Material type (silicone fiberglass vs aluminum fiberglass), temperature rating, number of layers, seam reinforcement, closure system, and required certifications.

Q9: Do fiberglass materials irritate skin? We use advanced silicone-coated fiberglass and anti-shedding fabrics, significantly reducing or eliminating skin irritation.

Q10: Can you help with Amazon compliance? Yes. We provide UL94 reports, SGS documents, carton compliance, barcode labeling, and retail-ready packaging.

Trusted By 1000+ Brands And Innovative Startups

Work With Lovrix on Your Custom Fireproof Bag Project

Developing a reliable fireproof bag requires balanced engineering, material expertise, and manufacturing experience. Whether you need document fireproof bags, battery fireproof bags, emergency storage bags, or industrial flame-resistant solutions, Lovrix can provide fully customized, safety-focused, compliant OEM/ODM support.

You can send us:

Required temperature rating
Bag dimensions
Use case (documents, batteries, emergency kit, etc.)
Preferred material type
Required certifications
Estimated order quantity
Reference images or sketches

We will provide:

✔ 2–3 engineering solutions

✔ Material recommendations

✔ Fireproof structure proposal

✔ Sampling timeline

✔ Detailed quotation

Let’s build a reliable, flame-resistant solution together—designed for real-world safety.

OEM ODM Fireproof Bags Manufacturer

Premium Custom Fireproof Bag · OEM/ODM · Retail-Grade Quality Control

Why Fireproof Bags Are an Issue Worth Taking Seriously

Key Factors When Developing Custom Fireproof Bags

1. Material System Selection (Fabric + Coating + Inner Layers)

2. Temperature Rating (800°C / 1000°C / 1200°C)

3. Multi-Layer Structure Engineering

4. Lithium Battery Special Construction

5. Required Testing & Certifications

Complete Product Categories of Fireproof Bags We Manufacture

Fireproof Document Bags (800–1000°C)

Fireproof Money Bags / Cash Safe Bags (1000–1200°C)

Fireproof Storage Bags (Large Capacity 20L–80L)

Lithium Battery Fireproof Bags (1200°C+)

Fireproof File Organizers / Accordion Bags

Fireproof Safe Liners & Drawer Inserts

Fireproof Backpacks & Fireproof Tool Bags

Industrial Fireproof Covers & Sleeves

Electronic Equipment Fireproof Bags

Custom-Engineered Fireproof Solutions

Our Engineering-Based OEM/ODM Solution for Fireproof Bags

Step 1

Application Analysis & Hazard Classification (Fire Type + Heat Source + Risk Level)

Step 2

Fireproof Material System Proposal (Multi-Layer Architecture)

Step 3

Structural Engineering & Heat Mapping Analysis

Step 4

Prototype Development with High-Temperature Sewing

Step 5

Flame, Temperature & Penetration Testing

Step 6

Pilot Batch (100–300 units)

Step 7

Mass Production with 7-Point QC System

Step 8

Packaging, Labeling & Certification Support

Buyer Checklist – Questions to Ask Any Fireproof Bag Manufacturer

Essential Technical Questions

Lithium Battery–Specific Questions

Manufacturing & Compliance Questions

Complete Manufacturing Processes for Fireproof Bags

1. Fireproof Material Preparation & Pre-Treatment

2. Multi-Layer Composite Cutting

3. Material Lamination (when required)

4. Reinforced Seam Construction (High-Temperature Sewing)

5. Closure System Installation

6. Structural Reinforcement Stage

7. Internal Component Assembly

8. Flame & Heat Testing Phase

9. Final Finishing & Aesthetic Processing

10. Packaging & Global Compliance

Our Experience & Representative Projects

Project 1 — Premium 1000°C Fireproof Document Bag (North America)

Project 2 — 1200°C Lithium Battery Charging Bag (EU Drone Brand)

Project 3 — Fireproof Cash Safe Bag for Banking Institution

Project 4 — Fireproof 80L Storage Bag for Disaster Preparedness Brand

Technical Specifications & Material Options

Table 1 — Fireproof Material Performance Matrix

Table 2 — Closure & Seaming Specifications

Table 3 — Structural Configuration Options

Industries & Applications We Serve

Home Safety & Emergency Preparedness

Banking, Finance & Legal Institutions

Lithium Battery Safety (RC, Drone, E-bike, Solar Storage)

Industrial & Welding Equipment

Industrial & Welding Equipment

Government, Rescue & Public Safety

Quality & Certifications

FAQ – Fireproof Bags Manufacturing & Compliance

Trusted By 1000+ Brands And Innovative Startups

Work With Lovrix on Your Custom Fireproof Bag Project

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