MetLQ Temperature Resistant Putty
Applications
What is Temperature-Resistant Putty?
Temperature-resistant putty is a repair material used on metal parts that operate in hot working conditions. Ordinary fillers soften, crack, or fall off — this putty stays bonded, keeps its shape, and protects damaged areas even when parts heat up, cool down, or vibrate during operation.
- Used in areas exposed to temperature, expansion, and vibration
- Helps rebuild worn surfaces, cracks, pinholes, and leakage points
- Prevents repeat repair failure where normal fillers cannot survive
Where It Is Used
Component Repair
- Repairs damaged temperature-zone parts without replacement
- Fills cracks, blowholes, leakage points and worn edges
- Restores strength in areas exposed to temperature and vibration
Performance Under Temperature Load
- Remains solid and stable after curing
- Does not peel, deform, or soften in hot operating zones
- Handles expansion-contraction without cracking
- Keeps bonding strength under vibration and load stress
Industry Usage Areas
Maintenance Applications
- Refineries and power-plant maintenance
- Foundries and casting repair shops
- Fabrication and heavy-equipment workshops
- Process-industry maintenance jobs
Work After Curing
- Drilling, grinding and machining possible
- Suitable for painting and powder coating
- Component returns to service without extra rework
Why Maintenance Teams Use It
Repair Advantages
- Suitable for temperature-zone repair work
- Helps extend component service life
- Reduces repeat breakdowns and shutdown time
Maintenance Friendly
- Can be applied during on-site maintenance
- Works without major dismantling
- Reliable solution for industrial repair work
Problem – Cause – Solution Section
Problem – Cause – Solution Matrix
| Real Problem in Industry | Technical Reason / Root Cause | How MetLQ Temperature Resistant Putty Fixes It |
|---|---|---|
| Casting surface has pinholes, porosity & dents | Gas entrapment during casting / shrinkage defects | Fills micro-voids & cavities, restores surface, prevents part rejection |
| Normal filler cracks after heating | Filler cannot handle thermal expansion & temperature load | Temperature-stable epoxy stays bonded during repeated heating-cooling cycles |
| Hot pipeline / exhaust surface worn or leaking | Metal thinning, erosion & vibration stress | Rebuilds worn surface, seals leakage points, resists temperature & vibration |
| Furnace / oven panel develops cracks | Thermal stress & expansion fatigue | Fills cracks, reinforces weak sections, avoids panel replacement |
| Surface defects visible after powder-coating | Ordinary filler softens inside curing oven | Maintains shape during oven cure and delivers a uniform coated finish |