| 1. | Standard gibbs function of molar reaction
标准摩尔反应吉布斯函数 |
| 2. | Standard molar formation gibbs function
标准摩尔生成吉布斯函数 |
| 3. | Specific surface gibbs function
比表面吉布斯函数 |
| 4. | Gibbs function criterion
吉布斯函数判据 |
| 5. | This article points out a misconception in physical chemistry " the value of gibbs function is equal when binary system of pure substance is in phase balance "
摘要指出了“单元复相系平衡状态时,两相中的吉布斯函数值相等”说法的错误。 |
| 6. | The basic thermodynamic theory was introduced to calculate the gibbs function changes of mg - si - 0 system and was used to discuss the process of synthesizing the mg2si powder
本文应用热力学理论对mg _ 2si制备过程进行了讨论,并探讨了固相反应进行的可能性及工艺制度的确立。 |
| 7. | For the profound comprehending of gibbs function and conditions of phase balance , the paper deduces one of the phase balance conditions is the chemical potential being equal in different phases
通过对吉布斯函数定义的再认识和单元两相系平衡条件的推导得出单元复相系相平衡的条件之一是具有强度性质的各相化学式相等。 |
| 8. | After getting thermo - chemical data of some compounds by using gaussian 98 software of quantum chemistry and obtaining activities of elements in ti matrix , the gibbs function increments , rg , for 16 chemical reactions at the interface of 12 scs - 6 sic / ti composites were calculated
结合量子化学研究结果,计算了scs - 6sic纤维与ti - al金属间化合物和典型的近、 + 、近及钛合金组成的复合材料体系可能发生的16个界面反应的gibbs函数变_ rg 。 |
| 9. | At first , basic thermodynamic theories were introduced to calculate the gibbs function changes of mg - si - o - c system , which was an effective tool for verifying the variation of composition during the solid - state reaction process . the possibility of the occurrence for solid - state reaction was discussed
论文应用热力学理论对mg - si基热电化合物固相反应过程中涉及的mg - si - o - c体系进行了热力学计算,探讨了固相反应发生的可能性及工艺制度对材料组成、性能的影响。 |
| 10. | Because of the existence of the holes in the system , the molecular fraction q should considered into the free energies and the gibbs functions . when there are few holes or none existing in the system , i . e . , , it corresponds to the liquid state or solid state ; when there are lots of holes and a few atoms existing in the system , i . e . , , it corresponding to the gas state
为了进一步研究固、液、气三相之间的转变,我们引入空格点并定义了占据率q ,当空格点几乎没有或很少时,即q 1 ,系统对应的是固态或液态;而当空格点很多时,即q 0系统中原子很少,系统对应的则是气态。 |
