Abstract
Technical development, scientific research and better communications have caused closed trading communities to be absorbed in the industrialized society. Here, diversity strikes a discordant note, and there is thus a general trend towards standardization, which can be defined as follows:
A branch of applied science and technology seeking a logical and economically sound solution to problems associated with the creation of order in specific spheres of human activity through mutual agreement, consultation, co-ordination, study and experience.
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References
Mémento de l’Ingenieur de Normalisation d’Enterprise, AFNOR (1958).
Birle, J., Conséquences économiques de la Normalisation, Conférence tenue au centre économique et social de perfectionnement des cadres, Paris (1954).
The operation of a Company Standard Department, BSI, London (1959).
Normungsarbeit in Betrieben, Normenheft 1, DNA (1947).
Moore, L. B., Industrial Standardization, section 9, Handbook of Industrial Management (1960).
Haeder, W., Die Krafteinheit “Newton” in Berechnungen der Technik, DIN-Mitteilungen, October 1962.
Pallez, A., La nouvelle réglementation des unités de mesure, Cour, de la Norm. No. 193 (1962).
Quantities and units of the SI, ISO Recommendation R31.
Sass, F., Sollen auch die Techniker zum MKSA-System übergehen?, Konstruktion 11, (May 5), 1959.
Hvistendahl, H. S., Engineering Units and Physical Quantities, Macmillan, London, 1964.
ISO Recommendation R3–1954, Preferred numbers, series of preferred numbers.
Blanchet, M., Nombres normaux comme base de la normalisation internationale, Courrier de la Normalisation, 3 (1934).
Berg, S., Angewandte Normzahlen, Beuth-Vertrieb GmbH (1949).
Kienzle, O., Normungszahlen, Springer Verlag (1950).
ISO Recommendation R128–1959, Engineering drawing, Principles of presentation.
ISO Recommendation Rl 29–1959, Engineering drawing, Dimensioning.
ISO Recommendation R406–1964, Inscription of linear and angular tolerances.
Conway, H. G., Engineering tolerances, Pitman & Sons Ltd., London (1962).
Brandenberger, H., Toleranzen, Passung und Konstruktion, Zürich (1956).
Leinweber, P., Toleranzen und Lehren, Springer, Berlin (1948).
Bolz, R. W., Production Processes, their influence on design, Pentan Publishing Co. Cleveland (1951).
Buckingham, E., Dimensions and Tolerances for Mass Production, Industrial Press, New-York (1954).
Adams, G. G., Principles and practice governing interchangeability, Proc. Instn. Mech. Engrs. 167, p. 154 (1953).
Tschochner, H., Toleranzen, Passungen, Grenzlehren, Wintersche Verlagshandlung (1951).
ISO Recommendation R286–1962, ISO system of limits and fits: Part 1-General, tolerances and deviations.
Jumentier, R., Tolérances et ajustements, notions essentielles sur les ajustements des pièces lisses cylindriques et à faces parallèles, Dunod Paris (1953).
Reason, R. E., Report on the measurement of surface finish by stylus methods, Taylor-Hobson Research Department, Leicester, England (1946).
BS 1134: 1961, Centre-line-average height method for the assessment of surface texture.
Bickel, E. and Freitag, E., Die Definition und der zahlmässige Ausdruck für die Rauhigkeit, Industrielle Organisation, I (1952).
Schmalz, Technische Oberflächenkunde, Berlin 1936.
Olson, K. V., On the standardization of surface roughness, Brüel & Kjaer Technical Review, No. 3, 1961.
Nicolau, P., Problem of defining micro-geometrical irregularities of mechanical parts, Microtechnic (1953).
Perthen, J., Prüfen und Messen der Oberflächengestalt, Hanser, München (1949).
Vries, W. M., DE, Ein universelles System zur Begriffs- und Wertbestimmung der Oberflächenrauheit, Fachberichte für Oberflächentechnik, 2 (1964), No. 2.
ISO Recomendation R468–1966, Surface roughness.
Parker, S., Drawings and Dimensions, Pitman & Sons, London (1955).
Jetmar, L., Über zulässige Form- und Lageabweichungen, Der Maschinenbau, 1963 (9).
Tolerances and Limits, American Machinist Reference book sheet (1957).
Yribarren, R., Les tolérances de forme, Mécanique, Octobre 1949.
DIN 7182, Toleranzen und Passungen, Begriffe für Form- und Lageabweichungen.
Frautisek Dub, Erreurs de forme et de position, Cour, de la Normalisation No. 170 (1963).
Blye, H., Geometric tolerances, Machine Design, September, 1955.
Noble, G., Form tolerances, Canadian Machinery and Manufacturing News, January, 1955.
ISO document, Indications on drawings of tolerances of form and of position.
ISO Recommendation R68–1958, ISO Basic profile for triangular screw thread. Basic sizes for screw thread in the major diameter range 0.25–5 mm.
ISO Recommendation R261–1962, ISO metric screw threads. General plan (diameter range 0.25–300 mm).
ISO Recommendation R263–1962, ISO inch screw threads. General plan and selection for screws, bolts and nuts (diameter range 0-06-6 in).
ISO Recommendation R53–1957, Basic rack of cylindrical gears for general engineering.
ISO Recommendation R54–1957, Modules and diametral pitches of cylindrical gears for general engineering.
ISO Recommendation R467–1966, Preferred modules and diametral pitches of cylindrical gears for general engineering.
DIN 58400–1964 (Draft), Bezugsprofile für Verzahnungen der Feinwerktechnik.
Chiranis, N. P., New AGMA classification system for gears, Product Engineering, July 10, 1961.
Draft ISO Recommendation No. 413, Rolling bearings, tolerances, definitions.
ISO Recommendation R492–1966, Rolling bearings, radial bearings; tolerances.
ISO Recommendation R200–1961, Rolling bearings, internal clearance in unloaded bearings: definitions.
ISO Recommendation R201–1961, Rolling bearings, radial internal clearance in unloaded radial groove type ball bearings with cylindrical bore; values.
Palmgren, A., Ball and Roller Bearing Engineering, SKF Industries.
Staines, H. N., An introduction to Ball and Roller Bearings, 1954–1955, Assoc. Eng. Shipbuilding Draughtsmen.
Eschmann, Hasbargen, Weigand, Die Wälzlagerpraxis, Verlag von R. Oldenburg, München.
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© 1970 N. V. Philips’ Gloeilampenfabrieken, Eindhoven
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Hens, A.T. (1970). General Basic Standards. In: Davidson, A. (eds) Handbook of Precision Engineering. Philips Technical Library. Palgrave, London. https://doi.org/10.1007/978-1-349-00085-2_2
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