borides

It has been found that the boron element in metal borides is activated,and can be electrochemically oxidized with very high discharge capacity.

人们通过研究发现，金属硼化物中的硼元素处于活化状态，在一定的条件下可以发生电化学氧化反应，给出很高的电化学容量。

During the past decade, considerable research effort has been directed towards the development of in situmetal matrix composites, in which the reinforcements are formed in situ by exothermal reactions betweenelements or between elements and compounds. Using this approach, MMCs with a wide range of matrix materials(including aluminum, titanium, copper, nickel and iron), and second-phase particles including borides, carbides

在过去的几十年中，对于金属基复合材料我们做了大量的研究工作，这些复合材料的增强体都是通过元素之间或者元素与化合物之间的原位放热反应而加入到基体中的，这种方法广泛应用在生产金属基体材料（包括铝、钛、铜、镍和铁）和第二相颗粒中（包括硼、碳、氮、氧和他们的混合物）。

The melting point of the pure periclase magnesia is 2,800℃, some impurities may reduce the melting point of the magnesia , borides influence is extremely remarkable.

纯净的方镁石型氧化镁的熔点为2800℃，一些杂质可使氧化镁的熔点降低，其中硼化物的影响极为显著，即使是少量的硼化物(0.01%-0.02%)的存在就将导致氧化镁的抗蠕变性能明显降低，而B2O3在高温时的气化能够造成氧化镁材料的气孔率增大，严重影响其高温强度，故镁砂降硼是非常重要的。

However, theseare favourable to only mono-or bi-borides, but not for borides with complex struc-ture such as Cr_5B_3 or W_2B_5. The coefficient of S_c for alloy of CsCl structuredeviating from Bragg's S_c is directly proportional to charge transfer in alloy.

对CsCl型合金，S_c对Bragg定律的偏离系数γ和合金中电荷转移量成正比，后者越大表明金属键越强，则合金对离子的阻止本领越大，这与实验结果是吻合的。

In addition, the morphology of borides was changed greatly.

基体随着添加元素的种类和数量不同而有所不同，硼化物在组织中呈连续网状分布。

borides：硼化物

boric 含硼的 | borides 硼化物 | boron nitride 氮化硼

borides：硼化物陶瓷材料

boride 硼化物 | borides 硼化物陶瓷材料 | boriding 渗硼

nickel borides：硼化镍

nickel borate ==> 硼酸镍 | nickel borides ==> 硼化镍 | nickel brass ==> 镍铜锌合金,铜镍锌合金