Flame-resilient
Flame-resilient describes a material, structure, or individual that can withstand or resist the destructive effects of fire. This characteristic signifies a degree of invulnerability or protection against flames, encompassing the ability to delay ignition, slow burning, limit heat transfer, or maintain structural integrity in the presence of high temperatures and combustion. The term highlights the material's intrinsic properties, design features, or the inherent abilities which allow them to endure and prevent catastrophic failure when exposed to fire's intensity, heat, or duration. Therefore, being flame-resilient is crucial in various applications, including construction, clothing, and emergency response. It conveys safety, endurance, and reduced risk in hazardous environments.
Flame-resilient meaning with examples
- The firefighter's new uniform, woven from a flame-resilient fabric, provided crucial protection during the intense blaze. The material's ability to char rather than ignite gave him more time to evacuate residents, while his mask protected his lungs. The design's careful layering trapped body heat. This resilience in extreme heat allowed him to perform his dangerous rescue operations while mitigating the risks of burn injuries and smoke inhalation, ensuring his survival.
- The architects specified flame-resilient building materials, including fire-resistant concrete and treated wood, to construct the new high-rise apartment building. The intention was to create a building that would contain and resist the spread of fire, thereby improving evacuation. This measure exceeded the legal requirements, providing enhanced safety for residents. Their approach helped prevent widespread damage, allowing a swift return to normalcy. This added a new layer to the building's safety.
- In laboratory tests, the experimental polymer demonstrated remarkable flame-resilient qualities, even when exposed to a direct blowtorch flame. The material's structure remained intact, preventing combustion. As a result, the researchers were optimistic about its potential uses in aerospace applications where resistance to high heat is essential. After continued research, they intended to manufacture products that improved safety by using materials that can resist burning.
- The company developed flame-resilient protective gear for welders and metalworkers to enhance workplace safety. The gear's ability to withstand sparks, high heat and molten metal improved employee safety, protecting workers from burns. This included fire-resistant gloves, aprons, and face shields, reducing the risk of injuries. Implementing this flame-resilient protection created a secure working environment and a more efficient workflow.
