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  • 标题:The influence of the profiled milling parameters to the quality of the surface.
  • 作者:Brenci, Luminita Maria ; Cismaru, Ivan ; Cosereanu, Camelia
  • 期刊名称:Annals of DAAAM & Proceedings
  • 印刷版ISSN:1726-9679
  • 出版年度:2009
  • 期号:January
  • 语种:English
  • 出版社:DAAAM International Vienna
  • 摘要:The surface quality was quantitative assessed by the roughness measured on the surface. The actual research is generally oriented to analyze the quality of the flat sanded surfaces (Ratnasingam et al. 2002, Gurau et. al. 2005) or coated ones (Boieriu et al. 2008). A particular characteristic of the wooden surfaces is the non-homogenous structure compared to other materials, thing that makes the process of assessment the quality of the surface more difficult to be done, especially in the conditions where a unitary technical specification for measuring the wood surface roughness doesn't exist yet. The most difficult problem in measuring the roughness of the wooden surfaces occurs in case of complex profiles (concave or convex ones) (Brenci 2006, Salca et. al. 2008). The roughness of the flat surfaces can be measured by stylus or by laser or light beam equipment without problems (Brenci et. al. 2008), whilst the roughness on the profiles can be measured only by laser or light beam equipment. An optical sensor has been used for present research, in order to determine the roughness of the beech and oak wood profiles after milling phase. The roughness was measured first perpendicular to the grains on a concave wooden profile and then parallel to the grains.
  • 关键词:Metal finishing;Metals;Milling (Metals);Milling (Metalwork)

The influence of the profiled milling parameters to the quality of the surface.


Brenci, Luminita Maria ; Cismaru, Ivan ; Cosereanu, Camelia 等


1. INTRODUCTION

The surface quality was quantitative assessed by the roughness measured on the surface. The actual research is generally oriented to analyze the quality of the flat sanded surfaces (Ratnasingam et al. 2002, Gurau et. al. 2005) or coated ones (Boieriu et al. 2008). A particular characteristic of the wooden surfaces is the non-homogenous structure compared to other materials, thing that makes the process of assessment the quality of the surface more difficult to be done, especially in the conditions where a unitary technical specification for measuring the wood surface roughness doesn't exist yet. The most difficult problem in measuring the roughness of the wooden surfaces occurs in case of complex profiles (concave or convex ones) (Brenci 2006, Salca et. al. 2008). The roughness of the flat surfaces can be measured by stylus or by laser or light beam equipment without problems (Brenci et. al. 2008), whilst the roughness on the profiles can be measured only by laser or light beam equipment. An optical sensor has been used for present research, in order to determine the roughness of the beech and oak wood profiles after milling phase. The roughness was measured first perpendicular to the grains on a concave wooden profile and then parallel to the grains.

The research done in this paper is only the first step in studying the quality of the profiles after milling phase, depending on the processing parameters, next step to be done being the research on the quality of the profiles for the most common species of wood used in furniture manufacturing and than for those less studied so far.

2. APPLIED METHODS

Two species of wood with different anatomical structure have been analyzed and they are beech and oak wood. The samples have been milled using two rotation speeds combined with three feed speeds, as can be seen in Tab. 1. The wood profile presented in Fig. 1 has been analyzed on a concave surface of 6 mm radius and a length of 9 mm perpendicular to the grains and on a length of 50 mm parallel to the grains. Problems rise when detaching the chips on feed speed direction.

[FIGURE 1 OMITTED]

The wood structure and splitting tendency in the direction of the chip removal at the knife contact is a result of the cutting force components. This is the reason the milling in the reverse direction of the feed speed was considered only the quality of the surface depending on the correlation between the feed speed and the direction of tool rotation.

The samples have been measured using a light beam roughness equipment FRT type (Fries Research and Technology), made in Germany, provided with light beam of 2 urn diameter and the measurement method was applied according to EN ISO 4287:1997 technical specification.

Two species of hardwood with different anatomical structure have been analyzed: oak wood, with a porous structure, numerous and big vessels in the early wood and beech wood, more homogeneous than the previous one, with small vessels uniformly distributed in its structure.

The roughness values of the concave surface measured perpendicular and parallel to the grains are expressed by Rz.

3. RESULTS AND DISCUSSIONS

The diagrams in Fig. 2. a show the values of the roughness measured for the two species of wood in the conditions of different rotation speeds and feed speeds. It can be observed that the value of the roughness obtained for the oak wood is higher than that obtained for the beech wood. This fact can be explained by the anatomical structure of the oak wood, less homogenous than that of the beech wood, with big and numerous pores.

A solution to "diminish" the effects of the wood structure when assessing the surface roughness could be that of "filtering" the measuring results by removing the defects of structure, the results being those presented in Fig. 2. b. The method of measuring the roughness perpendicular to the grains may introduce errors because of the small length measured and due to the possibility of hitting a non-favorable zone with vessels (in case of oak wood). The defects of the oak wood structure have not been filtered in the above mentioned analysis and they appear on the roughness profile as seen in Fig. 3.

Increased rotation speeds do not have as result the effect of improving the quality of the surface (as a normal situation).

[FIGURE 2 OMITTED]

[FIGURE 3 OMITTED]

The anatomical structure proves to be a dominant one, so that the problem of optimizing the quality of the surface when milling the oak wood becomes an open issue to be discussed, just because of the big sizes of the wood vessels. The anatomical structure in case of oak wood alters the smoothness of the surface and an unfiltered 3D measurement of the surface roughness on an area of 9 x 9 [[mm.sup.2]] shows the sizes of the vessels (Fig. 4. a), whilst the filtered 3D roughness profiles in case of oak wood (Fig. 4. b) and beech wood (Fig. 4. c) at a rotation speed of 4852 rot/min and a feed speed of 23.74 m/min look smoother. That's why, a measuring method along the grains of the wood is recommended, in order to measure on a length big enough (50 mm) to cover areas with and without pores. The resulted values of the roughness measured parallel to the grains on the concave surface were higher in case of oak compared to beech wood, especially for the rotation speed of 4852 rot/min and feed speed of 12.7 m/min (Fig. 5. a.). In case the defects of anatomical structure of oak wood are removed (Fig. 5. b.), the value of Rz parameter decreases.

In case of assessing the roughness on the longitudinal direction of the profile, the recorded values were higher because of the sum of the technological factors of influence competing together. These factors are as follows: the heights of the irregularities, radial and frontal stroke of the spindle and of the profiled milling tool, vibrations in the kinematics chain, etc.

[FIGURE 4 OMITTED]

[FIGURE 5 OMITTED]

4. CONCLUSIONS

The study on the profiled milled surfaces has shown that the parameters of the milling operation and also the direction of measurement have a significant influence on the resulted values of the roughness. Thus, a lower rotation speed (4852 rot/min) and a higher feed speed (23,74 m/min) are recommended in order to obtain better results of the roughness (Rz), the results being more accurate when measuring parallel to the grains (in the other case the results being contradictory). From the analysis of the relationship between the anatomical structure (vessel sizes), measuring methods and surface quality, has resulted that the recommended measuring method of the roughness is along the grains, having thus the possibility to choose areas with different anatomical structure of wood.

In case of assessing the wood surface, a "filtering" operation is mandatory for the obtained data, so that the influence of the wood structure to be eliminated as much as possible.

5. REFERENCES

Boieriu, C.; Curtu, I.; Timar, M.C.; Lica, D. (2008). Quality of Finished Surfaces for Lignin- Cellulose Based Materials. ISI Proceedings of the 19-th International DAAAM Symposium Intelligent Manufacturing & Automation: Focus on Next Generation of Inteligent Systems and Solutions, Katalinic, B. (Ed.), pp.0137-0138, ISSN 0018-3768 Trnava, Slovakia, October 2008, DAAAM International, Vienna

Brenci, L. (2006). Research Concerning the Influence of Cutter Wear Upon the Quality of Profiled Wooden Surfaces. ProLigno Journal, Vol.2, No.1, (March 2006) 10 pages (65-74), ISSN 1841-4737

Brenci, L.; Cismaru, I.; Boeriu, C. (2008) The roughness of wood surfaces interpreted through two measuring methods. ProLigno Journal Vol. 4, No. 3 (September 2008), 8 pages (67-74), ISSN 1841-4737

Gurau, L.; Mansfield-Williams, H.& Irle M. (2005). Comparative Study of Laser Triangulation and Stylus Measurement on Wood Surfaces. ProLigno Journal, Vol.1, No.1, (March 2005) 11 pages (21-31), ISSN 1841-4737

Ratnasingam, J.; Reed, H.F.& Perkons, M.C. (2002). The abrasive sanding of rubberwood (Hevea brasiliensis) an industrial perspective. Holz als Roh- und Werkstoff, Vol.60, No.3, 5 pages (191-196), ISSN 0018-3768

Salca, E.; Fotin, A.; Cismaru, I. (2008). Evaluation of surfaces quality after profiled milling of alder and birch wood. ProLigno Journal Vol. 4, No. 2 (June 2008), 12 pages (57-68), ISSN 1841-4737
Tab. 1. Milling parameters of the samples

Wood Rotation speed

species n = 4852 [rot/min] n = 6594 [rot/min]

 Feed speed [m/min]

Beech/ Oak 6.5 12.7 23.7 6.5 12.7 23.7
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