铱金动力,提供稳定的点火动力,进一步提升汽车的加速性能和燃油经济性。对于那些希望自己的车在更高的档次上有动力和锐气,以及希望乘坐时有良好的燃油经济性的人,推荐使用。
【更高的响应和改进的加速度】。<铱电>即使在发动机运转不平稳的情况下,也能提供稳定的点火。它改善了加速下的性能。
【怠速时点火更可靠。燃油经济性`静音性也有所提高】。】<铱金动力可以减少误点,稳定怠速,即使在怠速时,也容易造成点火不良。这样可以提高发动机的静音性和燃油效率。
【直径0.4mm的铱合金中心电极】
插头的中心电极越粗,冷却作用越大,点火性能越差。相比之下,直径为0.4mm的铱合金中心电极具有极低的冷却效果,由于传热低,降低了点火风险,实现了更可靠的点火,这是插头的基本性能。
【更高的点火能力】
提高点火性能的关键是 "火核 "的生长,而 "火核 "是由飞火产生的。通常情况下,通过增大火花间隙来处理,但这样做会产生相反的效果,因为火花电压会很高。因此,铱电采用了DENSO独特的U型槽接地电极,在保持低火花电压的同时,实现了优异的点火性能。
Iridium power to further increase your vehicle's acceleration and fuel efficiency with stable ignition power.It is recommended for those who want to have a higher grade of sharpness and power in their vehicle, and for those who want to drive economically with good fuel economy.
[In addition to the high response, the acceleration performance is improved.]
Iridium power ensures stable ignition even when the engine is running unevenly.This improves the performance during acceleration.
[More reliable ignition at idle]Fuel efficiency and quietness are also improved.]
Iridium Power reduces missparks and stabilizes idling speed at idle, where ignition is often poor.This increases the quietness of the engine noise and fuel efficiency.
[0.4mm diameter iridium alloy center electrode]
The thicker the center electrode of the plug is, the larger the cooling effect becomes and the worse the ignitability becomes.In comparison, the 0.4 mm diameter iridium alloy center electrode has an extremely small cooling effect and heat is not easily lost, so that ignition loss is reduced and more reliable ignitability, which can be called the basic performance of the plug, is realized.
[uneven ignition power]
For the improvement of ignitability, it is important to grow the flame nucleus formed by the flying flame.Normally, this is done by increasing the spark gap, but this increases the sparking voltage and has the opposite effect.Therefore, DENSO's original U-groove grounding electrode was adopted for Iridium Power, and excellent ignition performance was realized while keeping the spark voltage low.