| 1. | The radiating surface area is calculated by multiplying the diameter by the hot zone length by pi ( 3 . 14 )
计算辐射面积是用直径乘发热部的长度乘3 . 14 。 |
| 2. | The radiating surface area is calculated by multiplying the diameter times the hot zone length times pi ( 3 . 14 )
计算辐射面积是用直径乘发热部的长度乘3 . 14 。 |
| 3. | Read the loading in watts per square unit of radiating surface that can be applied to the element
知道了能应用到硅碳棒的每平方单元辐射面积所能负荷的能量。 |
| 4. | When calculating the wattage capabilities of a element , the unit of watts output per unit of radiating surface area is used
当计算其能量时,要用到每单元辐射面积的输出功率。 |
| 5. | When calculating the wattage capabilities of an element , the unit of watts output per unit of radiating surface area is used
当计算其能量时,要用到每单元辐射面积的输出功率。 |
| 6. | Flexible installation , platform radiating surface can be installed at the bottom , rear or top of the cleaning trough
安装布置灵活,根据清洗要求可放置于清洗槽的底面侧面或顶面。 |
| 7. | To find the total amount of power one element could supply under these conditions , multiply this value by the radiating surface of the element
在这些条件下,得知一根这种硅碳棒所能提供的总的功率,需乘以其辐射面积。 |
| 8. | Figure 1 shows the recommended watt loading for a square inch or square centimeter of radiating surface as a function of furnace temperature
图1中指出了每平方英寸或者是每平方厘米辐射面积所能负荷的理想能量和熔炉温度的函数关系。 |
| 9. | Therefore , a element with 10 square inches of radiating surface could supply 350 watts , whereas a element with 200 square inches of radiating surface could supply 7000 watts
因此, 10平方英寸的辐射面积能提供350瓦的能量,同样的, 200平方英寸的辐射面积能提供7000瓦的能量。 |
| 10. | Therefore , an element with 10 square inches of radiating surface could supply 350 watts , whereas an element with 200 square inches of radiating surface could supply 7000 watts
因此, 10平方英寸的辐射面积能提供350瓦的能量,同样的, 200平方英寸的辐射面积能提供7000瓦的能量。 |
