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- PARAFOL 12-97 Version: 3.08 Revision Date 22.11.2019
- Decane 124-18-5
- Controlled Synthesis and Characterization of Ru-Fullerene
- The Crystalline Structures of the Even Alkanes Hexane, Octane
- The Synthesis, Purification, and Certain Physical Constants of the Normal
- Compendium of Experimental Cetane Numbers J
- Thermophysics Characterization of Kerosene Combustion Ten-See Wang L NASA Marshall Space Flight Center, Huntsville, Alabama 3581
- Solvent Viscosity Effects on the Fluorescence Lifetimes of 9-Phenylanthracene
- Density and Viscosity of Hydrocarbons at Extreme Conditions Associated with Ultra-Deep Reservoirs-Measurements and Modeling
- Measurements of Higher Alkanes Using NO+ Chemical
- Turbulence-Flame Interactions in Lean Premixed Dodecane Flames
- Dodecane Decomposition in a Radio-Frequency [RF] Plasma
- A Chemical Mechanism for Low to High Temperature Oxidation of N-Dodecane As a Component of Transportation Fuel Surrogates
- Dodecane, 99% MSDS
- IUPAC Nomenclature of Higher Alkanes – Innovative Mnemonics
- Thermal Stability of N-Dodecane
- HEATS of COMBUSTION of EIGHT NORMAL PARAFFIN HYDROCARBONS in the LIQUID STATE by Edward J
- Thermochemical Properties of Jet Fuels Rui Xu, Hai Wang, Med Colket, Tim Edwards July 6, 2015
- Retention Property of Degraded N-Dodecane by Acidic Radiolysis in the Purex Process•Õ
- Section 2. Hazards Identification OSHA/HCS Status : This Material Is Considered Hazardous by the OSHA Hazard Communication Standard (29 CFR 1910.1200)
- Density and Phase Equilibrium of the Binary System Methane + N-Decane Under High Temperatures and Pressures
- The Crystalline Structures of the Even Alkanes Hexane, Octane
- Naming and Indexing of Chemical Substances for Chemical Abstractstm
- Measurements of Viscosity and Density of N-Alkane and Their Mixtures
- Heats of Combustion of the Liquid Normal Parafin Hydrocarbons from Hexane to Dodecane
- Autoignition Dynamics and Combustion of N-Dodecane Droplets Under Transcritical Conditions
- Effects of Surrogate Jet-Fuel Composition on Ignition and Extinction in High Temperature Applications
- Two New Models for Viscosity Prediction of Binary, Ternary and Higher Order Liquid Mixtures
- 1 Analysis of Chemical Pathways for N-Dodecane/Air Turbulent Premixed Flames1 D. Dasgupta1, W. Sun1, M. Day2, A.J. Aspden3, T. L