Densities of a 50/50 by volume mixture of JP-10 + a turpentine dimer fuel (TDF) have been measured in the compressed-liquid state from 270 to 470 K and at 0.5–45 MPa and at ambient pressure from 263.15 to 373.15 K. Ambient-pressure dynamic viscosity has also been measured over the same temperature range. The density data have been correlated with a Rackett equation, and the compressed-liquid density data have been fit to a Tait equation. Correlation parameters are given. Results of the mixture measurements presented here are compared with previously measured densities of the individual components, TDF and JP-10. Measurements of density over large ranges of temperature and pressure, as well as viscosity measurements, provide information as to the suitability of a fuel for use as a drop-in replacement for traditional petroleum-based fuels. The large range in temperature and pressure of the measurements is important to more closely capture engine operating conditions and better access the potential of alternative fuel candidates.

中文翻译：

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50/50 JP-10 +萜烯混合物的高精度，温度相关的密度和粘度测量

在压缩液体状态下，从270至470 K，在0.5-45 MPa，环境压力为263.15至373.15 K的条件下，测量到JP-10 +松节油二聚体燃料（TDF）的50/50体积比混合物的密度。还已经在相同温度范围内测量了环境压力动态粘度。密度数据已与Rackett方程相关联，而压缩液体密度数据已与Tait方程拟合。给出了相关参数。将此处显示的混合物测量结果与先前测量的各个组分TDF和JP-10的密度进行比较。在较大温度和压力范围内的密度测量以及粘度测量可提供有关燃料是否适合用作传统石油基燃料的直接替代品的信息。