🚨 **Official SINOYQX Emergency Statement
The Hong Kong Fire Exposes the Urgent Need for Higher Flame-Resistance Standards in Building Materials**
On November 28, 2025, a tragic fire broke out at Hong Kong’s Tai Po Hung Fuk Estate, causing significant casualties.
Preliminary findings from the Hong Kong SAR Government indicate that combustible EPS/XPS foam boards installed around window openings and façade areas accelerated vertical fire spread, becoming a major contributing factor.
As a company specializing in melamine foam flame-resistant materials,
SINOYQX expresses deep condolences to the families affected.
This tragedy reminds the global construction industry that:
**The flame-resistance classification of materials can determine the difference between containment and catastrophe.
B2/B3 combustible materials pose high, unacceptable risks.**
01|Fire Risks of Building Materials Have Been Severely Underestimated
EPS/XPS foams are commonly used for:
External wall insulation
Temporary enclosure and façade protection
Construction-phase blocking
Window opening and shaft sealing
However, they fall under B2/B3 combustible classifications, exhibiting:
Very low ignition temperatures
Rapid upward flame spread along façades
Melting and flaming droplets causing secondary ignition
Dense smoke and toxic gas release
“Chimney effect” propagation through openings and shafts
The Hong Kong incident demonstrates again:
Low-cost combustible materials often result in high-cost human and structural losses.
02|Global Trend: From Low-Standard Flame Retardants to High-Level Flame-Resistance and System-Based Fire Protection
International building codes are converging toward a clear framework:
✔ A-Class non-combustible materials → primary structure
✔ B1-class intrinsic flame-resistant materials → functional layers & composite assemblies
✔ System-level fire engineering → replacing stand-alone “flame-retardant materials”
Applicable to:
High-rise façade systems
Hospitals, airports, transit systems
Fire-rated cavity sealing in construction
Energy stations, data centers, underground spaces
Locations prone to melting-drip propagation
The industry is shifting from:
“Combustible materials + simple flame-retardant coatings”
to:
“Non-combustible systems + intrinsic flame-resistant materials + engineered fire protection assemblies”
In this transformation, melamine foam (B1 class) has become a globally recognized high-performance flame-resistant solution.
**03|SINOYQX Melamine Foam:
B1-Class Intrinsic Flame Resistance for High-Level Building Fire Safety**
SINOYQX melamine foam is classified as B1 flame-resistant under GB 8624 and EN 13501-1.
Its flame resistance comes from its molecular structure, not from additive flame retardants.
✔ Intrinsic flame resistance: non-melting, non-dripping, non-propagating
In a fire, the foam carbonizes and forms an insulating char layer:
No “firefall” dripping like EPS/XPS
No molten flow
Slower flame-spread rate
✔ Extremely wide operating temperature range (approx. -200°C to +240°C)
Suitable for:
Flame-resistant cavity filling
Construction-phase opening sealing
Metro stations, airports, hospitals
LNG, cold-chain, energy storage applications
✔ Ultra-lightweight (as low as 4 kg/m³), easily engineered, low VOC
Available in large-format panels
Compatible with A-class non-combustible materials
Provides acoustic absorption + thermal insulation + flame resistance
✔ Lower smoke and toxicity, improving life safety and evacuation time
While no material can “prevent all fires,”
B1-class intrinsic flame-resistant melamine foam significantly delays fire development and minimizes melt-drip hazards, buying life-saving evacuation time.
04|Key Application Recommendations for SINOYQX Melamine Foam in Building Safety
① Replace combustible materials in construction-phase temporary sealing
Ideal for:
Window openings
External façade protection
Mechanical/electrical shaft openings
Temporary enclosure and blocking
Replacing EPS/XPS with melamine foam greatly reduces melt-drip ignition risks.
② B1-class acoustic–thermal functional layer in high-rise buildings
Can be integrated as:
Auxiliary layer with A-class non-combustible boards
Composite layer with metal panels or aerogel sheets
Flame-resistant acoustic systems
Forming:
“A-Class Non-Combustible System + B1-Class Functional Layer”
to ensure both safety and comfort.
③ Fire-resistant acoustic systems for public infrastructure
Applicable for:
Metro & railway systems
Hospitals & schools
Airports & terminals
Tunnels & underground spaces
Meets engineering requirements under EN, GB, and ASTM standards.
05|The Hong Kong Fire Will Likely Accelerate Higher Fire-Safety Standards Across Asia
Clear global trends include:
🔺 Stronger fire-resistance requirements for temporary construction enclosure
🔺 Restrictions on B2/B3 materials near façade openings
🔺 Greater focus on dripping behavior, smoke density, flame-spread rate
🔺 A-class + B1-class composite systems becoming mainstream
China’s national standards are also tightening accordingly.
The future will shift from:
Material-level flame resistance → system-level fire performance with transparent classifications.
Melamine foam will continue to serve as a critical B1-class flame-resistant layer in high-safety assemblies.
**06|SINOYQX’s Position:
Advancing Fire Safety Through High-Level Material Responsibility**
As one of China’s leading melamine foam manufacturers, SINOYQX is committed to:
Advancing B1-class intrinsic flame-resistant technologies
Industrializing ultra-lightweight, high-performance melamine foam
Engineering integrated building fire-protection systems
Achieving full EN / GB / ASTM certification
Collaborating with design institutes and engineering contractors worldwide
We firmly believe:
**Flame-resistance classification is not just a specification—
it is a matter of life safety.**
SINOYQX will continue working with global partners to promote the transition toward a truly high flame-resistance era in modern construction.
📌 International Media Q&A (Unified Response)
Q1. Is SINOYQX suggesting the Hong Kong fire was caused by materials?
No. We do not assign blame. The statement reflects material science and global fire-behavior data.
Q2. Is melamine foam an A-class non-combustible material?
No. It is a B1-class flame-resistant material and should be paired with A-class systems for optimal performance.
Q3. Can melamine foam prevent similar incidents?
It cannot guarantee prevention but can significantly reduce melt-drip ignition and delay flame spread, improving evacuation conditions.
Q4. Will cost hinder the adoption of melamine foam?
Not in critical areas. Small volume, high impact—excellent cost-performance ratio.
Q5. Is SINOYQX willing to support fire-safety improvements in Hong Kong and mainland China?
Yes. We will provide system-level flame-resistant material solutions aligned with EN/GB/ASTM standards.
Q6. Is this disaster being used for marketing?
No. SINOYQX maintains a responsible, scientific tone and does not exploit tragedies.
Our goal is to raise fire-safety awareness globally.
📞 Official Global Contact Information
SINOYQX
📧 Email:
[email protected]
🌐 Website: www.sinoyqx.com
📞 Phone / WeChat: +86-135-4070-2776