HRC stands for 'high rupture capacity'. An alternative abbreviation is 'HBC, meaning 'high breaking capacity. The rupture (or breaking) capacity is a term describing the maximum short-circuit current that the fuse can safely interrupt at its rated voltage. Most fuses will safely interrupt any level of fault current between a current that just causes the fuse to operate (melt), up to their maximum breaking capacity- such fuses are called 'full-range'. HRC fuses usually have strong, ceramic bodies to withstand the huge pressure generated when the fuse has to interrupt a large short-circuit current. In contrast, low breaking capacity fuses have weaker bodies made from materials such as glass.
HBC (High Breaking Capacity, European term) and HRC (High Rupturing Capacity, North American term) fuses have the ability to break high fault currents. This is done by having silica sand in the fuse that the fuse elements travel through. On high fault current that sand will melt and turn to glass. This breaks the current flow immediatelyA cartridge fuse maximum current breaking capacity is very much lower than HRC, HBC because there is nothing in the fuse body except the fuse elements.
13-16 hrc
8.75 g/cm3
HRC stands for Hardness Rockwell C scale. There are different scales; C is probably the most common for hardened materials. See the related link for more information.
Hardness Conversion TableTensileStrength(N/mm2)Brinell Hardness(BHN)Vickers Hardness(HV)RockwellHardness(HRB)Rockwell Hardness(HRC)28586903209510056.235010511062.338511412066.741512413071.245013314075.048014315078.751015216081.754516217085.057517118087.161018119089.564019020091.567519921093.570520922095.074021923096.777022824098.180023825099.582024225523.185025226524.888026127526.490026628027.193027629028.595028029529.299529531031.0103030432032.2106031433033.3109532334034.4112533335035.5115534236036.6119035237037.7122036138038.8125537139039.8129038040040.8132039041041.8135039942042.7138540943043.6142041844044.5145542845045.3148543746046.1152044747046.9155545648047.7159546649048.4163047550049.1166548551049.8170049452050.5174050453051.1177551354051.7181052355052.3184553256053.0188054257053.6192055158054.1195556159054.7199557060055.2203058061055.7207058962056.3210559963056.8214560864057.3218061865057.8
high ruptured capacity
HRC (High Rupturing Capacity) fuses are safety devices used in electrical systems to protect circuits from overloads and short circuits. They consist of a fusible element enclosed in a ceramic or glass body, designed to interrupt high fault currents without causing an explosion or fire. HRC fuses are known for their reliability and ability to handle high current ratings, making them suitable for industrial applications. Their design allows for quick and efficient disconnection of faulty circuits, ensuring the safety of electrical installations.
High Rupture Capacity fuse.
The term "heavy duty fuses" is usually a common term applied to larger size fuses by the general public. The category of these types of fuses usually fall into the classification of a HRC fuse. High Rupture Capacity fuse. Stopping current flow once it is started is against the nature of flowing current. It wants to keep flowing even if it has to jump an air gap to do so. The lower the amperage the less likely this is to happen. In a non HRC fuse of higher capacity, once the fuse link has opened, the current may continue to flow for a short duration of time. With the HRC fuses there is silica sand surrounding the fuse link. When the link burns open, a tremendous amount of heat is generated and the silica sand around the fuse wire melts, creating a glass barrier to suppress the electric arc. This action shuts down the current flow immediately.
Devices such as transistors, IGBT, thyristors in order to protect them the rupture time is in msec. HRC fuses rupture time is more and the current for rupturing is also high making it suitable for motors/resistive loads.
This wall mount is rated by the manufacturer of having a maximum weight capacity of 100 pounds. The maximum weight capacity of the LifeSpan Fitness TR3000-HRC treadmill is 350 pounds.
The main advantage offered by an HRC fuse is that, when a fault current condition occurs, a tremendous amount of heat is created within the fuse. That heat melts the silica sand filling of the fuse into glass. Glass, being an insulator, suppresses any arc-over and breaks the circuit instantaneously. This behavior minimizes the possibility of a continuing - and dangerous - "high arc current" situation from developing, which is what happens if a normal fuse fails to break a heavy fault current. Compared to normal, "non-HRC" fuses, the main disadvantage of using an HRC fuse is that they cost a lot more to make - and to buy - because of the extra materials they contain. But choosing to use an HRC fuse instead of a normal fuse makes very good sense if the equipment that needs to be protected - or other equipment nearby - would be very expensive to replace if it all went up in smoke just because of a fuse which was not capable of stopping a high fault current flowing. So, if some expensive electrical equipment was supplied with one or more HRC fuses installed to protect it, you would be very foolish indeed to replace them with normal "non-HRC" fuses.
HBC (High Breaking Capacity, European term) and HRC (High Rupturing Capacity, North American term) fuses have the ability to break high fault currents. This is done by having silica sand in the fuse that the fuse elements travel through. On high fault current that sand will melt and turn to glass. This breaks the current flow immediatelyA cartridge fuse maximum current breaking capacity is very much lower than HRC, HBC because there is nothing in the fuse body except the fuse elements.
The full form of HRC is Rockwell Hardness C Scale. It is a measure of the hardness of a material, typically metals, determined by how much force is required to create an indentation on the surface of the material.
semiconductor fuse is used to save the diodes ,thyristers and IGBTS because the below time is very fast in the case of any short circuit and over current, HRC fuse is mostly used in the power factors panels and its below time is less then semiconducter fuses.
Silica sand is used in an HRC (High Rupturing Capacity) fuse to provide insulation and arc quenching properties. When the fuse blows, the silica sand helps to extinguish the arc created by the breaking circuit, preventing damage to the surrounding equipment.
HRC Culinary Academy was created in 2008.