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Destructive physical analysis

Destructive physical analysis (DPA) examination tests, where two pieces of each lot of parts (as a minimum) were cut open and examined to determine the workmanship of the parts. If the workmanship was judged to be poor, the whole lot of parts were rejected (a lot of parts is defined as parts from one manufacturer from one assembly line and one date code). [Pg.699]

DIE separation Refers to the separation of the actual microcircuit chip from the inside of the package. Destructive physical analysis (DPA) Devices are opened and analyzed for process integrity and workmanship. [Pg.702]

EIA-469-C Standard Test Method for Destructive Physical Analysis of High Reliability... [Pg.1600]

The analysis was performed by SRXRF at the XRF beam-line of VEPP-3, Institute of Nuclear Physics, Novosibirsk, Russia. For the accuracy control the different types of the International Certified Reference Materials were used. There were obtained all metrological characteristics, namely precision, accuracy and lower limits of detections. This is the SRXRF method, that allow to analyze the sample mass of 0.5 mg directly without the destruction. The puncture from patient may be picked out more than once. [Pg.387]

For this particular product, in addition to a decrease in analysis time, a non-destructive method is especially desirable because of other physical tests that are also required on each sample By FNAA, the total nitrogen content of a sample is first detd and then related to compn of the mixture. Since Octols contain no ingredients other than pure TNT (18.50% N) and pure HMX (37.84%), the following linear relationship is derived from the ealed nitrogen content of each ingredient ... [Pg.359]

To obtain representative samples from nonhomoge-neous sample materials, such as polymer compounds, particle-size reduction techniques need often to be applied (not for film) [50]. Also, for destructive inpolymer additive analysis it is advantageous to change the physical state of solid samples to provide a larger surface area per unit mass. Complete extraction is sometimes achieved only after grinding the sample. Typically, Perlstein [51] has reported recoveries of only 59 % for extraction of Tinuvin 320 from unground PVC after 16 h of Soxhlet extraction with diethyl ether while recoveries rise to 97 % for ground polymer. [Pg.58]

Using solid-state physics and physical metallurgy concepts, advanced non-destructive electronic tools can be developed to rapidly characterize material properties. Non-destructive tools operate at the electronic level, therefore assessing the electronic structure of the material and any perturbations in the structure due to crystallinity, defects, microstructural phases and their features, manufacturing and processing, and service-induced strains.1 Electronic, magnetic, and elastic properties have all been correlated to fundamental properties of materials.2 5 An analysis of the relationship of physics to properties can be found in Olson et al.1... [Pg.201]

Until recently, there was no systematic survey, documentation, and chemical and physical analyses of western Mediterranean obsidian sources. Recently, Tykot completed an extensive survey and documentation of western Mediterranean obsidian sources on the islands of Sardinia, Palmarola, Lipari, and Pantelleria (24-27) for a more detailed discussion. Samples from these sources were analyzed at MURR by INAA and/or XRF and LA-ICP-MS. As expected, INAA (and XRF and LA-ICP-MS) of geologic samples from these sources demonstrated that obsidian from each island had a unique chemical signature(s). In the case of Sardinia, six compositional groups were identified. Because of the analytical cost and semi-destructive nature of INAA, artifacts were analyzed by LA-ICP-MS rather than INAA. XRF would have provided a viable analytical alternative, but many of the artifacts were smaller than the minimum size required for this analysis on a standard laboratory-based stationary XRF instrument... [Pg.279]

Infrared spectroscopic methods are extensively used to analyse polymers due to their simplicity, rapidity, reproducibility, non-destructive character and ease of sample preparation. Degree of crystallinity [73], chain branching [74], degree of oxidation [75], density measurements [76], quantification of additives [75, 77], end-group analysis [78, 79] and other physical/chemical properties have been studied using MIR and/or NIR. [Pg.215]

Solar Energy Conversion V y r A Physical and Chemical Analysis (Photochemici Preparative il Technology ] Destructive... [Pg.38]

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See also in sourсe #XX -- [ Pg.103 ]



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Destructive analysis

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