Wyniki wyszukiwania - BazTech

1

The effect of alternative cutter paths on flatness deviations in the face milling of aluminum plate parts

Dobrzynski M., Chuchala D., Orlowski K. A.

Journal of Machine Engineering

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2018

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Vol. 18, No. 1

80--87

EN

In this paper the relationships between the alternative machining paths and flatness deviations of the aluminum plate part, were presented. The flatness tolerance of the main surface of the plate part has crucial meaning due to the assembly requirement of piezoelectric elements on the radiator. The aluminum bodies under investigation are the base part of the radiators with crimped feathers for the train industry. The surface of the aluminum plate part was milled using three different milling strategies: along of longer or shorter side of workpiece and at an angle of 45°. The aluminum bodies were machined on milling centre ecoMILL 70 DMG MORI. The flatness deviation measurements were carried out on the Coordinated Measuring Machine Altera 7.5.5 Nikon Metrology NV. These measurements were made during the manufacturing process of the radiator, namely after machining, however, before the process crimping of feathers. The results that were obtained enables the validation of assumed milling path strategies in connection of the subsequent machining and assembly processes.

2

Machine vision detection of the circular saw vibrations

Sandak J., Orlowski K. A.

Journal of Machine Engineering

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2018

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Vol. 18, No. 3

67--77

EN

Dynamical properties of rotating circular saw blades are crucial for both production quality and personnel safety. This paper presents a novel method for monitoring circular saw vibrations and deviations. A machine vision system uses a camera and a laser line projected on the saw’s surface to estimate vibration range. Changes of the dynamic behaviour of the saw were measured as a function of the rotational speed. The critical rotational speed of the circular saw blade as well as the optimal rotational speed of the saw were detected.

3

Surface texture of pine wood beams after planing in industrial conditions

Dobrzyński M., Orlowski K. A., Boryczko A.

Annals of Warsaw University of Life Sciences - SGGW. Forestry and Wood Technology

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2018

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No. 104

91--95

EN

Measuring the surface features of wooden components after planing is connected with the rising demands regarding to the quality of the painted window frames. In the paper the complex surface texture analysis especially identifying of surface damages using non-contact 3D measurement techniques for precise area measurement were presented.This enabled the study of irregular surface features with sufficient fidelity and resolution. Observed irregularities have diverse sizes and shapes and overlap in numerous layers.Executed in the paper exhaustive evaluation of various aspects of surface condition based on 3D surface texture parameters (ISO 25178) together with additional parameters were essential for defining irregular surface features. All those analysis are crucial for further industrial processes like painting and finally for quality of the entire product.

4

A brief review and comparison of selected experimental methods for measuring natural frequencies of circular saw blades

Kaczmarek A., Orlowski K. A., Javorek L.

Drewno : prace naukowe, doniesienia, komunikaty

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2016

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vol. 59, nr 197

231--239

EN

Different methods for the empirical determination of the natural frequencies of circular saw blades are presented. Stationary methods, such as the harmonic and impulse tests, are discussed and the results of related comparison are given. The comparison of the methods revealed their degree of practical usefulness and their accuracy in determining natural frequencies. A combination of specific methods is proposed, which should allow optimal results.

5

The effect of thermal modification of ash wood on granularity and homogeneity of sawdust in the sawing process on a sash gang saw prw 15-M in view of its technological usefulness

Dzurenda L., Orlowski K. A.

Drewno : prace naukowe, doniesienia, komunikaty

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2011

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vol. 54, nr 186

27-37

EN

This paper presents the results of granulometric analyses of sawdust of unmodified and thermally- modified ash wood (Fraxinus exelsior L.) sawed on a narrow-kerf sash gang saw. The sawdust of dry thermally-modified ash produced in the sawing process on a frame sawing machine PRW15-M at a feed speed in the range of 0.36-1.67 mźmin-1 has chip granularity ranging from 33.5 micro m to 9.9 mm; whereas unmodified ash wood sawdust consists of chips in a granularity range from 35.6 micro m to 13.8 mm. It was observed that thermally-modified ash sawdust is finer, with a distinctly larger share of the fraction in the granularity range a = 125-500 micro m and a slightly increased share of the fraction in the range a = 32-125 ěm. Changes in mechanical characteristics of modified wood were also observed in the technological usefulness of a part of dry sawdust chip in the granularity range a = 250 micro m-2.4 mm. While the homogenous share of chips in sawdust produced in the process of sawing of dry ash wood was HSCha = 81-84 %, the demonstrated homogenous share of chips in ash sawdust formed in the process of sawing of dry thermally-modified wood was lower by 4-6 %.

PL

Przedstawiono wyniki analiz granulometrycznych trocin, drewna jesionowego niemodyfikowanego (Fraxinus exelsior L.) i modyfikowanego termicznie, otrzymanych w procesie przecinania drewna na pilarce ramowej wielopiłowej PRW15-M. Przecinanie drewna prowadzono dla dwu prędkości posuwu 0,36 mźmin-1 oraz 1,67 mźmin-1. Ziarnistość powstających trocin dla drewna jesionowego modyfikowanego termicznie zawierała się w przedziale od 33,5 micro m do 9,9 mm, podczas gdy dla drewna niemodyfikowanego ziarnistość trocin mieściła się w przedziale od 35,6 micro m do 13,8 mm. Stwierdzono, iż trociny otrzymywane z drewna modyfikowanego termicznie są bardziej miałkie, z większym udziałem frakcji o ziarnistości w przedziale a = 125 – 500 micro m, z nieznacznie większym udziałem frakcji z zakresu a = 32 – 125 micro m. Zaobserwowano również, że przydatność technologiczna trocin mieszczących się w zakresie ziarnistości a = 250 micro m – 2.4 mm dla drewna jesionowego niemodyfikowanego termicznie zawiera się w przedziale 81 – 84 %, zaś dla drewna jesionowego modyfikowanego termicznie jest mniejsza o około 4 – 6%.