Here you can find the related products in Titanium Disc, we are professional manufacturer of Titanium Forged Disc, Titanium Alloy Round Discs, Pure Titanium Disc, Grade 2 Titanium Disc. We focused on international export product development, production and sales.
Shaanxi Lasting titanium Industry Co.,Ltd is a professional manufacturer & exporter for titanium materials in China more than 30 years' successful experience. We offer the largest selection of Titanium Powder, Titanium Ingots, Titanium forgings, Titanium Bars, Titanium Sheets/Plates, Titanium tube/pipes, Titanium fittings and other Titanium Products in a wide range of sizes grades and specifications. There are more than 3000mt all kinds of Titanium and Titanium alloys materials have been exported from us every year.
Why Choose Lasting Titanium?
-Provide Titanium and Titanium Alloy products Since 1990.
-Titanium Exports hold the record of Top 3 in China for 15 Consecutive Years.
-Titanium Products have been Exported to more than 60 Countries and Regions.
-Supply the best quality products at a reasonable price.
-Provide very fast delivery and excellent customer service.
-Our Certificates: ISO9001, AS9100, AS9120 and PED.
Titanium Disc, Titanium Forged Disc, Titanium Alloy Round Discs, Pure Titanium Disc, Grade 2 Titanium Disc SHAANXI LASTING TITANIUM INDUSTRY CO., LTD. , https://www.lastingti.com
If the phrase "intrinsically safe" (IS) is unfamiliar to you, it's essential to grasp its significance, especially in relation to devices used in hazardous locations and classified areas. Intrinsically safe refers to any device that cannot, under any circumstances, ignite volatile materials and trigger an explosion. Such equipment is specifically designed for use in spaces where combustible gases are present in explosive atmospheres and hazardous zones.
These devices must have extremely low energy and temperature outputs and are guaranteed not to produce a spark in any situation. Using a device that could reach high temperatures or cause sparks could ignite the gases and result in an explosion, making "accident-proof" technology crucial.
For a device to be deemed intrinsically safe, it must be approved for use in hazardous locations, or HazLoc certified, by a certifying body. In the EU, the ATEX directives outline the requirements for equipment meant for use in explosive atmospheres. The International Electrotechnical Commission System also provides standards for certifying such equipment.
In the U.S., OSHA sets different requirements and regulations. Equipment intended for use in potentially explosive atmospheres must bear the mark of one of the Nationally Recognized Testing Laboratories recognized to test and certify this type of equipment. Similarly, in Canada, the Canadian Standard Association oversees comparable regulations.
The goal of intrinsic safety is universally acknowledged as invaluable—complete safety in every aspect and environment.
The history of intrinsically safe equipment began in early coal mines, where the combination of methane gas and coal dust posed significant danger. Initially, miners would ignite these gases using a burning ember on a long pole, later replaced by water-soaked ponies carrying candles. Ventilation was introduced to reduce risks by diluting dust and gas levels. Later, motors in mines were made explosion-proof, and enclosing electrical equipment was found to reduce explosion risks. When low-voltage signaling bells caused two major mine explosions in the early 1900s, the idea of "intrinsically safe" equipment emerged.
Regulatory bodies focusing on industrial safety soon formed, and today, these organizations test and approve devices for hazardous locations.
What distinguishes intrinsically safe equipment from explosion-proof or non-incendive devices lies in their approach to preventing explosions. Intrinsically safe equipment prevents explosions outright, whereas explosion-proof or non-incendive equipment is designed to contain and protect against explosions. Explosion-proof devices are enclosed and built to withstand explosions, dissipating or containing energy during an incident.
Intrinsically safe equipment aims to limit electrical energy in both normal and abnormal conditions within environments posing explosion risks. These devices are meticulously crafted to eliminate risks of static electricity or heat discharge. Typically, electrical currents are engineered to stay below levels that could ignite flammable environments (below 29V DC and 300 mA). They also maintain an operating temperature threshold, usually not exceeding 135°C. Protection devices like intrinsically safe barriers are used when mounting equipment in hazardous areas to prevent excess energy from current surges from becoming ignition sources.
Intrinsically safe equipment is suited for any environment with potential explosion risks. Hazardous environments are classified to apply appropriate safety standards. These areas include flammable or possibly explosive substances like liquids, gases, vapors, and volatile dusts or fibers. Examples include gas lines, fuel containers, mining operations, and oil and gas facilities. Even seemingly harmless materials like fine powders from pharmaceuticals or chemical factories, and dust from particles like wood or grain, can pose explosion risks.
To determine if equipment is safe, various regulations dictate design, development, certification, and manufacturing processes. Any IS product will carry certification from a testing organization and be labeled accordingly.
While drones aim to enhance human safety by operating in risky areas, there are currently no flying drones certified as intrinsically safe. Physics suggests this is unlikely to change soon. However, drones can operate in nitrogen-inerted environments, allowing inspections of assets storing or processing explosive goods like storage tanks and oil cargo tanks. The pursuit of intrinsic safety remains a shared priority, aiming for total safety in all environments. Future advancements in intrinsically safe devices, hazard mitigation, and unmanned vehicles may eventually eliminate human risks entirely in industries.