R. Friebe scite author profile

The authors describe the design and the mode of operation of a partially automated analyzer system, based on the combination of the Kjeldahl wet digestion with the Berthelot reaction, for the determination of nitrogen in biological materials. The results from three years of operation are discussed from the view-points of variability of the materials to be tested, of accuracy and of precision. This analytical technique (with an accuracy of 98% and a precision of 4%) is suited for determining amino and amido nitrogen as well as non-aromatically bound ring nitrogen. The statistical evaluation of the analytical results revealed that the deviation of the measured values is mainly caused by the high-temperature digestion.

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Untersuchungen zur Verspinnung von Rapssaatproteinen

Schmandke

Maune

Friebe

et al. 1976

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Alkaline solutions of a mixture from rapeseed globulin and casein show plastic flow, which is influenced by protein concentration, relation of rapeseed globulin and casein, temperature and time of storage of the protein solution. The sodium hydroxide concentration with a great variability doesn't take effect on the rheological properties. With increasing content of casein in such alkaline solutions of rapeseed globuline and casein results an approach to NEWTONian flow. The spinnability of alkaline solutions of a mixture from rapeseed globulin and casein and the properties of the corresponding spun protein fibers are influenced by protein concentration, relation of rapeseed globulin and casein of the spinning solution and temperature of coagulating bath. The sodium hydroxide content of the spinning solution and the hydrochloric acid concentration of the coagulating bath with a great variability don't take effect. The spinnability of alkaline solutions of a mixture from rapeseed albumin starchsulphate and casein and the properties of the corresponding spun protein fibers compared to rapeseed globulin-casein mixtures are influenced additionally by sodium hydroxide concentration of the spinning solution and hydrochloric acid content of coagulating bath. The favourable influence on the properties of spun rapeseed albuminstarchsulphate-casein fibers isn't increased by a growth of the rapeseed albumin starchsulphate content more then 4% of the protein concentration of the spinning solution.

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Zur Anwendung der Methodenkombination KJELDAHL‐Aufschluß/BERTHELOT‐Reaktion bei der Stickstoffbestimmung in biologischen Materialien 6. Mitt. Die Blockaufschlußtechnik im Halbmikro‐ und Makromaßstab bei biologischen Feststoffen

Lange

Friebe

1983

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Es wird ein Verfahren zur Stickstoffbestimmung in festen biologischen Materialien unter Anwendung der Blockaufschlußtechnik für den Halbmikro‐ und Makromaßstab beschrieben. Für das Verfahren werden die analytischen Kenngrößen (Eichfunktion, optimaler Arbeitsbereich, Blindwert, Nachweisgrenze u. a.) an‐gegeben. Es können Unterschiede bei den Proben in der physikalischen Beschaffenheit, der chemischen Zusammensetzung, den Stickstoffgehalten und den Mengen, die zur Analyse verfügbar sind, berücksichtigt werden. Probleme hinsichtlich der Heterogenität oder Inhomogenität von Probenmaterialien bestehen nicht. Neben den in biologischen Materialien überwiegenden funktionellen Stickstoffgruppen (Amin‐, Amid‐, Peptid‐Gruppe) ist auch heterocyclisch‐aromatisch gebundener Stickstoff richtig erfaßbar. Die Standardabweichungen liegen im Halbmikromaßstab bei 1,9 und im Makromaßstab bei 2,6 mg Stickstoff/g Substrat. Die Vergleichbarkeit der Ergebnisse mit denen anderer KJELDAHL‐Varianten ist gewährleistet.

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Zur Rheologie und Verspinnung alkalischer Lösungen aus Sonnenblumensaatglobulin und Casein

Schmandke

Paul

Friebe

et al. 1976

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The specific demand of sodium hydroxide is determined for the dissolution of sunflower seed globulin, casein and a mixture of them to equal parts. In low protein-containing solutions it depends for sunflower seed globulin very much on the sodium chloride concentration. From sunflower seed globulin, casein and a mixture of them to equal parts are prepared with sodium hydroxide high protein-containing alkaline solutions. Sunflower seed globulin forms temporally a gel phase. After this phase the solution of sunflower seed globulin shows like casein and a mixture of sunflower seed globulin/casein (I:I) pseudoplastic flow. The flow curves of the pseudoplastic solutions are described mathematically with the OSWALDian power statement. By alkaline solutions of casein and sunflower seed globulin/casein (I:I) the flow exponent n is distributed statistically about 0.9, by solutions of sunflower seed globulin a distribution exists about the mean values n = 0.85 and n = 0.50. lg k depends in all protein solutions on the concentration of protein, sodium chloride, sodium hydroxide and on the temperature and time. For all protein solutions exists a linear relation between the logarithm of viscosity and the reciprocal temperature for lg k and I/T, which is derived normally for NEWTONian flow behaviour. In a suitable scope of spinning for all protein solutions are carried out complete factorial experiment, which guide to regression equations of lg k; in the case of sunflower seed globulin are calculated also a regression equation of the flow exponent n. Going out from the parameters of the spinning process the properties of the spun sunflower seed globulin/casein (I:I) fibers are described.

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R. Friebe

Azidophosphanes: Attractive starting materials for the preparation of phosphazenes

Zur Anwendung der Methodenkombination Kjeldahl‐Naßaufschluß/Berthelot‐Reaktion bei der Stickstoffbestimmung in biologischen Materialien 2. Mitt. Aufbau und Erprobung einer teilautomatisierten Apparatur zur routinemäßigen Bestimmung des Stickstoffs

Untersuchungen zur Verspinnung von Rapssaatproteinen

Zur Anwendung der Methodenkombination KJELDAHL‐Aufschluß/BERTHELOT‐Reaktion bei der Stickstoffbestimmung in biologischen Materialien 6. Mitt. Die Blockaufschlußtechnik im Halbmikro‐ und Makromaßstab bei biologischen Feststoffen

Zur Rheologie und Verspinnung alkalischer Lösungen aus Sonnenblumensaatglobulin und Casein

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