一种大型钢坯氧化烧损的测定方法,属于烧损检测技术领域。
The invention relates to a method for measuring oxidation burning loss of a large-sized billet, and belongs to the technical field of burning loss detection.
钢铁材料的氧化烧损严重影响着材料的应用,一直是人们关注的对象。
Due to the severe decrease of the steel properties, the oxidation of steel is always paid attention to.
通过控制合适的炉温、燃耗和炉子产量,使炉子的能耗和氧化烧损都大大降低。
By controlling suitable furnace temperature, fuel consumption and productivity, the energy consumption and metallic oxidation loss can be reduced to a large extent.
通过控制合适的炉温、燃耗和炉子产量,使炉子的能耗和氧化烧损都大大降低。
By controlling suitable furnace temperature, fuel consumption and productivity, the energy consumption and metallic oxidation loss can be reduced t...
在加热模套时,可放入少量颗粒木炭,通过木炭的燃烧消耗氧气达到减少氧化烧损的目的。
As heating die sleeve, a few grain charcoal is added and oxygen is consumed by charcoal burning so that oxidation burning loss is reduced.
加热炉的生产目的是满足轧制要求的钢坯温度分布,并实现钢坯表面氧化烧损最少和能耗最小。
The purpose of reheat furnace production is to acquire the slab temperature distribution rolling required, and achieve the fewest stock scale loss and energy consumption.
在含氧体积分数为36%以内提高空气预热温度和含氧浓度,可明显地提高热效率,降低钢坯的氧化烧损。
Under oxygen concentration 36% the higher air temperature and the higher oxygen concentration are, the higher heat efficiency is and the less oxidation loss is obviously.
改造后使加热炉提高了加热能力和加热质量,减少了板坯表面氧化烧损,降低了煤气消耗,经济效益显著。
As a result, the heating capacity and quality of heating furnace is improved, the slab surface oxidation burning loss is decreased and the gas consumption reduced and the economic benefit remarkable.
针对热轧带钢加热炉能耗高、加热质量差、氧化烧损大、故障率高等问题进行技术改造,达到节能降耗的目的。
The reheating furnace in hot strip mill had high energy consumption, low heating quality, high metal loss and high failure rate.
由计算得到的氧化回归方程与氧化曲线的相关系数可达到0.9以上,高温氧化烧损量与温度和时间均呈抛物线规律。
The relation coefficient between regression equation and oxidation curve is over 0.9 and the rules of oxidation - temperature and oxidation - time are parabolas.
T8涂层中由于碳元素被大量烧损,导致涂层氧化严重,孔隙率高,这是造成涂层硬度和强度不高及耐磨性较差的主要原因。
The burning loss of carbon, which causes heavy oxidation and high porosity, is the main reason for lower hardness, strength and worse wear resistance of T8 coating.
高浓度的强氧化酸甚至会引起烧损,应注意观察。
High concentrations of strong oxidizing acids may even cause burning and should observe.
氮化扩散层和氧化层:可以提高模具耐溶损性、耐过烧性、耐粘着性和耐热裂性。
Nitriding and oxidation: diffusion layer and oxidation layer improve soldering resistance, adhesion resistance and crack resistance.
氮化扩散层和氧化层:可以提高模具耐溶损性、耐过烧性、耐粘着性和耐热裂性。
Nitriding and oxidation: diffusion layer and oxidation layer improve soldering resistance, adhesion resistance and crack resistance.
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