Compiled and translated by Madeline Weng

Photos by Zeng Jian, Dongfang IC

THE TRANSFORMATION

Compiled and translated by Madeline Weng

Photos by Zeng Jian, Dongfang IC

Do you know that a plane carries nearly nine kilogrammes of weight every square centimetre when it’s up in the air? You may wonder, what materials enable it to endure such great pressure?

飛機(jī)“鎧甲”變形記

飛機(jī)要飛上萬(wàn)米高空，自身每厘米要承受八至九公斤的重量！究竟是怎樣的材料，賦予了飛機(jī)如此神力？

1903

Era of Exploration: wood that fires up the future

1903 witnessed the invention of the fi rst engined airplane in human history. Created by American aviation pioneers, the Wright brothers, the aviation was mainly made of spruce, a strong and lightweight wood. This material structure had been used up until the end of World War 1. Easy to assemble and requires little propulsive force, this kind of airplanes, however, was only able to fl y at a slow pace of 16 km/h.

探索的時(shí)代：木質(zhì)飛機(jī)，飛速慢

1903年，萊特兄弟發(fā)明的世界上第一架載人飛機(jī)上天。其材料以木材為主，占比達(dá)47%，其次是鋼和布。這樣的材料結(jié)構(gòu)一直沿用到第一次世界大戰(zhàn)結(jié)束。木質(zhì)材料的優(yōu)點(diǎn)有：重量輕，需要的推力較小，以及易加工，易組裝。然而，這架飛機(jī)的飛行時(shí)速只有16公里。

1906

Era of Breakthrough: Here Comes the Iron Man

The invention of duralium in 1906 set scene for the brilliant appearance of the all-metal airplanes. Duralium is hard as well as light in weight. Endowed with harder structure, planes in this era were able to travel more than 600 km an hour, marked a major breakthrough in aviation.

突破的時(shí)代：全金屬飛機(jī)出現(xiàn)

1906年，德國(guó)冶金學(xué)家發(fā)明了硬鋁，使后來(lái)制造全金屬結(jié)構(gòu)的飛機(jī)成為可能。硬鋁的優(yōu)點(diǎn)是強(qiáng)度比較高，硬度比較大，剛度比較大，同時(shí)較輕。全金屬結(jié)構(gòu)飛機(jī)加大了結(jié)構(gòu)強(qiáng)度，改善了氣動(dòng)外形，提高了飛機(jī)性能。到1940年代，全金屬結(jié)構(gòu)飛機(jī)的時(shí)速已經(jīng)超過(guò) 600公里，實(shí)現(xiàn)了飛機(jī)制造技術(shù)、飛行速度、安全性和飛機(jī)強(qiáng)度上的突破。

1950s

Era of Speed: Faster than Sound!

ln the 50s, engineers diverted their attentions to the search for a better heat-resisting material, hence the invention of aviation-grade titanium and stainless steel.

超音速的時(shí)代：鈦合金研制成功

1950年代以后，飛機(jī)材料特別注重耐高溫指標(biāo)，人類開(kāi)始尋求全新的高強(qiáng)度耐熱材料。于是，出現(xiàn)了航空專用的既堅(jiān)固又耐熱的鈦合金和不銹鋼。

1970s

Era of Advancement: Composite Material, Lighter yet Stronger

A new generation of aviation materials has come into being since the 1970s. The composite material is tougher, lighter, heat-resistant and vibrationreduced and so on. lt allows the aircraft to reduce its weight without compromising its original intensity. Boeing 787 is a good example of adopting composite material, with more than 50% of its body made of the latest aviation material.

When we look back into the history of aviation, we realise that it is always the new materials that boost the creation of a new type of planes. The progress made in the fi eld of manufacturing and testing has also laid solid technological base for the future designs. What will come out next, is defi nitely worth expecting.

縱觀人類航空發(fā)展史，材料和飛機(jī)一直是在相互推動(dòng)下不斷得以發(fā)展和改進(jìn)的。與此同時(shí)，制造工藝與測(cè)試技術(shù)的進(jìn)步，又為航空新產(chǎn)品的設(shè)計(jì)與制造提供了物質(zhì)與技術(shù)基礎(chǔ)。未來(lái)，航空材料的發(fā)展依舊讓人充滿期待。

先進(jìn)的時(shí)代：復(fù)合材料出現(xiàn)

自1970年代開(kāi)始，新一代航空材料復(fù)合材料應(yīng)運(yùn)而生。復(fù)合材料剛度高、質(zhì)量輕，并具有抗疲勞、減振、耐高溫、可設(shè)計(jì)等優(yōu)點(diǎn)。它可以使飛機(jī)在維持原強(qiáng)度的前提下減輕重量。波音787使用的復(fù)合材料，比例在逐漸增大，直到現(xiàn)在它的機(jī)身包括機(jī)翼都采用的是復(fù)合材料，其比例已經(jīng)超過(guò)了50%。