1) C and N mineralization
碳、氮矿化
1.
Maize straws were collected from different treatments of two long-term fertilization studies, their carbon (C) / nitrogen (N) ratios were determined, and their C and N mineralization rates in soil were compared in an aerobic incubation test.
不同处理秸秆碳、氮矿化量和被微生物固持的碳、氮量因培养时期不同而异,NPK、MNPK和240kg N·hm-2处理秸秆在培养期间碳的矿化率显著高于相应不施肥处理;60d培养期结束后,NPK处理秸秆的有机碳矿化量最大,占加入总有机碳的13。
2) Carbonization nitriding
碳化氮化
3) carbon/silicon carbonitride
碳/碳氮化硅
4) Titanium carbonitride
碳(氮)化钛
5) carbonitride
[,kɑ:bəu'naitraid]
碳氮化物
1.
Precipitation Law of Secondary Phase Particles Within Carbonitride of Nb-bearing Steel During Controlled Rolling and Controlled Cooling Process;
含铌钢碳氮化物二相粒子在控轧控冷工艺中析出规律
2.
The Precipitation Behavior of Carbonitride of Nb+V Microalloyed Steel Under Controlled Rolling and Cooling Process;
控轧控冷工艺条件下Nb-V钢碳氮化物的析出行为
3.
Numerical simulation of thermodynamic for carbonitride precipitation in austenite of complex microalloyed high strength and low alloy steels;
复合微合金化高强度低合金钢奥氏体相中碳氮化物析出热力学数值模拟
6) carbon nitride
氮化碳
1.
Synthesis of 3D macroporous carbon nitride and its blood compatibility;
三维大孔氮化碳材料的制备及其血液相容性
2.
Influence of nitrogen ion energy on photovoltaic new material carbon nitride films;
氮离子束能量对光伏新材料氮化碳薄膜的影响
3.
Progress in synthesis of carbon nitride crystals;
氮化碳晶体的合成研究进展
补充资料:碳化
分子式:
CAS号:
性质:又称碳化。固体燃料的热化学加工方法。将煤、木材、油页岩等在隔绝空气下加热,使分解为气体(如煤气)、液体(如焦油)和固体(如焦炭)产物。干馏设备一般为工业炉窑,煤气由炉窑逸出,并带有焦油蒸气,可以回收。焦炭则残留在炉窑中。根据加热的最终温度,一般可分为高温干馏(约900~1100℃)、中温干馏(约660~750℃)和低温干馏(约500~580℃)。此外,还有成堆干馏或煤堆干馏等。
CAS号:
性质:又称碳化。固体燃料的热化学加工方法。将煤、木材、油页岩等在隔绝空气下加热,使分解为气体(如煤气)、液体(如焦油)和固体(如焦炭)产物。干馏设备一般为工业炉窑,煤气由炉窑逸出,并带有焦油蒸气,可以回收。焦炭则残留在炉窑中。根据加热的最终温度,一般可分为高温干馏(约900~1100℃)、中温干馏(约660~750℃)和低温干馏(约500~580℃)。此外,还有成堆干馏或煤堆干馏等。
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参考词条