Call Number (LC) | Title | Results |
---|---|---|
NAS 1.15:107076 | 2.3 kW ion thruster wear test | 1 |
NAS 1.15:107077 | A numerical study of the effect of wake passing on turbine blade film cooling | 1 |
NAS 1.15:107078 | Feasibility of coupling between a single-mode elliptical-core fiber and a single mode rib waveguide over temperature | 1 |
NAS 1.15:107079 | Analysis of the defect structure of B2 FeAl alloys | 1 |
NAS 1.15:107080 | Implementation of a two-equation K-[omega] turbulence model in NPARC | 1 |
NAS 1.15:107081 | Optical techniques for shock visualization and detection | 1 |
NAS 1.15:107082 |
Friction and wear characteristics of candidate foil bearing materials from 25°C to 800°C Friction and wear characteristics of candidate foil bearing materials from 25 °C to 800 °C / |
2 |
NAS 1.15:107086 | Robust quantitative measurement of flows and transparent or highly reflective objects | 1 |
NAS 1.15:107087 | Effects of thermal treatment on tensile creep and stress-rupture behavior on Hi-Nicalon SiC fibers | 1 |
NAS 1.15:107088 | Correction factor for determining the London penetration depth from strip resonators | 1 |
NAS 1.15:107089 | Thermal and structural analysis of a hollow core Space Shuttle Main Engine (SSME) turbine blade | 1 |
NAS 1.15:107092 | "Fast track" lunar NTR systems assessment for NASA's first lunar outpost and its evolvability to Mars | 1 |
NAS 1.15:107093 | Human exploration and settlement of the moon using LUNOX-augmented NTR propulsion | 1 |
NAS 1.15:107094 | Robotic planetary science missions enabled with small NTR engine/stage technologies | 1 |
NAS 1.15:107095 | Human lunar mission capabilities using SSTO, ISRU, and LOX-augmented NTR technologies a preliminary assessment / | 1 |
NAS 1.15:107096 | Millenium modem/channelizer special test equipment | 1 |
NAS 1.15:107098 | Semiempirical analysis of surface alloy formation | 1 |
NAS 1.15:107099 | A compact fiber optic eye diagnostic system | 1 |
NAS 1.15:107101 | Integrated cryogenic satellite | 1 |
NAS 1.15:107103 | Rapid numerical simulation of viscous axisymmetric flow fields | 1 |