Roundness Deviation Measuring Strategy at Coordination Measuring Machines and Conventional Machines
Today technological process makes possible surface
control of producing parts which is needful for product quality
guarantee. Geometrical structure of part surface includes form,
proportion, accuracy to shape, accuracy to size, alignment and
surface topography (roughness, waviness, etc.). All these parameters
are dependence at technology, production machine parameters,
material properties, but also at human, etc. Every parameters
approves at total part accuracy, it is means at accuracy to shape. One
of the most important accuracy to shape element is roundness. This
paper will be deals by comparison of roughness deviations at
coordination measuring machines and at special single purpose
machines. Will describing measuring by discreet method
(discontinuous) and scanning method (continuous) at coordination
measuring machines and confrontation with reference method using
at single purpose machines.
[1] L. Ocenasova. Príspevok k hodnoteniu odchÛlky kruhovitosti pri meraní
na s├║radnicovom meracom stroij (Contribution to valuation of deviation
roundness at measuring on CMM): diserta─ìn├¡ pr├íca. Žilina: Žilinsk├í
univerzita v Žiline - Strojn├¡cka fakulta, 2008. 104 s.
[2] Norma STN ISO 6318 Meranie kruhovitosti. Termíny, definície
a parametre kruhovitosti (01 4410). SlovenskÛ ústav technickej
normalizácie, 1995
[3] S. Adamczak. Možnosti v├¢voja relat├¡vnych met├│d merania odch├¢lok
kruhovitosti; Doktorsk├í dizerta─ìn├í pr├íca; Žilina;1993
[4] S. Adamczak. Odniesieniowe metody pomiaru okr─àg┼éości cz─Öści maszyn.
Wydawnictwo Politechniki Świ─Ötokrzyskiej; Kielce, 1998, PL ISSN
0239-4979
[5] E. Ratajczyk. Współrzednosciowa technika pomiarowa, Warszawa,
Oficyna Wydawnicza Politechniki Warszawskiej, 2005.
[6] E. Kurekov├í, P. Gabko, M. Halaj. Technické meranie - Zv├ñzok ╬Ö╬Ö, Ing.
Peter Juriga - Grafické ┼ít├║dio, Bratislava 1.vydanie, 2005, ISBN 80-
89112-04-8, Modul M14 str.396-413
[7] Norma ISO 10360 - 1:2000, Geometrické ┼ípecifik├ícia v├¢robkov (GPS)
- Akcepta─ìné a verifika─ìné sk├║┼íky s├║radnicov├¢ch merac├¡ch strojov
(CMM)
[8] J. Pernikar, M. Tykal, J. Vackar. Jakost a metrologie, Část metrologie.
Brno: VUT v Brne, 2004. 151 s. ISBN 80-214-1997-0.
[9] L. Ocenasova, J. Valicek, M. Rucki, B. Gapinski,
L. Gregová, Linda. "Hodnocení odchylky kruhovitosti na
souřadnicovém m─øřic├¡m stroji.(The roundness of deviation evaluating
on CMM)". In 3rd Year of International Conference for Young
Researchers ad PhD. Students. 01. - 02. April 2009. Ostrava: VŠB - TU
Ostrava, 2009, s. 91. ISBN 978-80-248-1982-2.
[10] B. Gapinski, L. Ocenasova, M. Rucki. "Strategy of roundness
measurement with CMM". In The 19th International DAAAM
Symposium/2nd European DAAAM International Young Researchers
and Scientists Conference. 22-25th October 2008. Ed. Branko Katalinic.
Trnava: DAAAM International Vienna, 2008, p. 0527 - 0528. ISSN
1726-9679.
[11] B. Gapinski. The Roundness Deviation Measurement with CMM;
Coordinate Measuring Technique. Problems and implementations.
University of Bielsko-Biala 2008; ISBN 78-83-60714-40-9; s. 279-288
[12] J. Valicek, S. Hloch. M─øřen├¡ a ř├¡zen├¡ kvality povrch┼» vytvořen├¢ch
hydroabrazivn├¡m d─ølen├¡m (Measurement and quality control of surfaces
created by abrasive waterjet). 1. vyd. Ostrava: Tisk├írna Tiskservis, Jiř├¡
Pustina, 2008. 127 p. ISBN 978-80-254-3585-5.
[1] L. Ocenasova. Príspevok k hodnoteniu odchÛlky kruhovitosti pri meraní
na s├║radnicovom meracom stroij (Contribution to valuation of deviation
roundness at measuring on CMM): diserta─ìn├¡ pr├íca. Žilina: Žilinsk├í
univerzita v Žiline - Strojn├¡cka fakulta, 2008. 104 s.
[2] Norma STN ISO 6318 Meranie kruhovitosti. Termíny, definície
a parametre kruhovitosti (01 4410). SlovenskÛ ústav technickej
normalizácie, 1995
[3] S. Adamczak. Možnosti v├¢voja relat├¡vnych met├│d merania odch├¢lok
kruhovitosti; Doktorsk├í dizerta─ìn├í pr├íca; Žilina;1993
[4] S. Adamczak. Odniesieniowe metody pomiaru okr─àg┼éości cz─Öści maszyn.
Wydawnictwo Politechniki Świ─Ötokrzyskiej; Kielce, 1998, PL ISSN
0239-4979
[5] E. Ratajczyk. Współrzednosciowa technika pomiarowa, Warszawa,
Oficyna Wydawnicza Politechniki Warszawskiej, 2005.
[6] E. Kurekov├í, P. Gabko, M. Halaj. Technické meranie - Zv├ñzok ╬Ö╬Ö, Ing.
Peter Juriga - Grafické ┼ít├║dio, Bratislava 1.vydanie, 2005, ISBN 80-
89112-04-8, Modul M14 str.396-413
[7] Norma ISO 10360 - 1:2000, Geometrické ┼ípecifik├ícia v├¢robkov (GPS)
- Akcepta─ìné a verifika─ìné sk├║┼íky s├║radnicov├¢ch merac├¡ch strojov
(CMM)
[8] J. Pernikar, M. Tykal, J. Vackar. Jakost a metrologie, Část metrologie.
Brno: VUT v Brne, 2004. 151 s. ISBN 80-214-1997-0.
[9] L. Ocenasova, J. Valicek, M. Rucki, B. Gapinski,
L. Gregová, Linda. "Hodnocení odchylky kruhovitosti na
souřadnicovém m─øřic├¡m stroji.(The roundness of deviation evaluating
on CMM)". In 3rd Year of International Conference for Young
Researchers ad PhD. Students. 01. - 02. April 2009. Ostrava: VŠB - TU
Ostrava, 2009, s. 91. ISBN 978-80-248-1982-2.
[10] B. Gapinski, L. Ocenasova, M. Rucki. "Strategy of roundness
measurement with CMM". In The 19th International DAAAM
Symposium/2nd European DAAAM International Young Researchers
and Scientists Conference. 22-25th October 2008. Ed. Branko Katalinic.
Trnava: DAAAM International Vienna, 2008, p. 0527 - 0528. ISSN
1726-9679.
[11] B. Gapinski. The Roundness Deviation Measurement with CMM;
Coordinate Measuring Technique. Problems and implementations.
University of Bielsko-Biala 2008; ISBN 78-83-60714-40-9; s. 279-288
[12] J. Valicek, S. Hloch. M─øřen├¡ a ř├¡zen├¡ kvality povrch┼» vytvořen├¢ch
hydroabrazivn├¡m d─ølen├¡m (Measurement and quality control of surfaces
created by abrasive waterjet). 1. vyd. Ostrava: Tisk├írna Tiskservis, Jiř├¡
Pustina, 2008. 127 p. ISBN 978-80-254-3585-5.
@article{"International Journal of Mechanical, Industrial and Aerospace Sciences:63796", author = "Lenka Ocenasova and Bartosz Gapinski and Robert Cep and Linda Gregova and Branimir Barisic and Jana Novakova and Lenka Petrkovska", title = "Roundness Deviation Measuring Strategy at Coordination Measuring Machines and Conventional Machines", abstract = "Today technological process makes possible surface
control of producing parts which is needful for product quality
guarantee. Geometrical structure of part surface includes form,
proportion, accuracy to shape, accuracy to size, alignment and
surface topography (roughness, waviness, etc.). All these parameters
are dependence at technology, production machine parameters,
material properties, but also at human, etc. Every parameters
approves at total part accuracy, it is means at accuracy to shape. One
of the most important accuracy to shape element is roundness. This
paper will be deals by comparison of roughness deviations at
coordination measuring machines and at special single purpose
machines. Will describing measuring by discreet method
(discontinuous) and scanning method (continuous) at coordination
measuring machines and confrontation with reference method using
at single purpose machines.", keywords = "Coordinating Measuring Machines (CMM),
Measuring Strategy, Roughness Deviation, Accuracy.", volume = "3", number = "8", pages = "1018-4", }