Some trends in the development of helium engineering P. P. KalitinV. G. Gron'koE. V. Onosovskii Cryogenic Technology and Scientific-Technical Progress (A Topical Selection) Pages: 387 - 392
Improvement in schemes of cryogenic helium systems for cryostating of superconducting devices V. P. BelyakovA. P. In'kovI. M. Morkovkin Cryogenic Technology and Scientific-Technical Progress (A Topical Selection) Pages: 393 - 396
Design and investigation of a cryogenic helium system I. K. ButkevichA. P. In'kovG. Yu. Tsfasman Cryogenic Technology and Scientific-Technical Progress (A Topical Selection) Pages: 396 - 400
Design of highly efficient heat exchangers for cryogenic helium installations V. G. Pron'koV. V. UsanovD. A. Kirikov Cryogenic Technology and Scientific-Technical Progress (A Topical Selection) Pages: 400 - 403
Development of cryogenic systems based on cryogenic helium machines L. A. AlekseevI. I. Gil'manB. A. Chernyshev Cryogenic Technology and Scientific-Technical Progress (A Topical Selection) Pages: 404 - 405
Perforated-plate heat exchangers for cryogenic helium units V. D. KovalenkoL. B. MushinS. A. Shevyakova Cryogenic Technology and Scientific-Technical Progress (A Topical Selection) Pages: 406 - 407
Construction and investigation of a helium piston expander with an electromagnetic valve drive V. S. BogdanovI. K. ButkevichYu. I. Dukhanin Cryogenic Technology and Scientific-Technical Progress (A Topical Selection) Pages: 408 - 410
A heat exchanger made from tubes ribbed with wire for an AK-0.6 air-separation unit V. I. BovaI. G. GorenghteinV. I. Shnaiderman Cryogenic Technology and Scientific-Technical Progress (A Topical Selection) Pages: 410 - 411
Experience in building of basic examples of microcryogenic equipment A. K. GrezinL. G. AbakumovA. I. Khoroshunov Cryogenic Technology and Scientific-Technical Progress (A Topical Selection) Pages: 412 - 415
Compressors for throttled microcryogenic systems L. G. AbakumovV. G. Den'ginA. I. Khoroshunov Cryogenic Technology and Scientific-Technical Progress (A Topical Selection) Pages: 415 - 418
High-vacuum cryogenic pumps based on microcryogenic systems A. K. GrezinV. G. BakhnevA. V. Gromov Cryogenic Technology and Scientific-Technical Progress (A Topical Selection) Pages: 419 - 421
Pneumatic valve for microcryogenic systems L. G. AbakumovV. T. TkachevV. A. Kochurin Cryogenic Technology and Scientific-Technical Progress (A Topical Selection) Pages: 422 - 425
Gas thermodynamic calculation of the cycle of a Stirling single-stage gas cryogenic machine A. F. ArininN. M. GrigorenkoV. I. Lyapin Cryogenic Technology and Scientific-Technical Progress (A Topical Selection) Pages: 426 - 429
Forcing of the start-up period of closed throttled microcryogenic systems L. G. AbakumovA. K. GrezinV. P. Malamyzhev Cryogenic Technology and Scientific-Technical Progress (A Topical Selection) Pages: 429 - 431
Efficiency of using diaphragm and diaphragmless filter-presses B. G. ZaslavskiiR. A. Gaintseva The Operating Processes of Machines and Equipment Pages: 432 - 436
Intensity of mixing in apparatus with a screw mixer and a circulation tube M. P. UmanskiiV. N. DobryakovV. M. Sidorov The Operating Processes of Machines and Equipment Pages: 436 - 440
The use of alloy irons in chemical and petroleum engineering V. I. KulikovE. V. KovalevichN. N. Aleksandrov New Materials and Corrosion Control Pages: 441 - 443
The use of steels purged with argon for the production of roller-cutter drill-bit parts S. S. KhachaturovP. P. EvseevV. F. Sitnikov New Materials and Corrosion Control Pages: 443 - 445
The forming conditions of 16GS + 12Kh18N10T clad steel V. A. BubnovN. M. VolkovaA. S. Solodovnikov Equipment-Manufacturing Technology Pages: 446 - 451
A resetable drill device for drilling fastening holes in flanges N. G. SokolovaA. I. Tashlitskii Production Experience Pages: 452 - 453
Antipickup and easy knock-out core sand mixtures for producing large steel castings E. V. Shtyrenkov Production Experience Pages: 453 - 454