Applying FCCCD Response Surface Method in Studying the Cutting Power of Wood Materials

Nguyen Huu Loc; Van Thuy Tran

doi:10.4028/p-kjkk7u

Paper Titles

Preface

Preparation and Properties of VPCS/PMPS Composites
p.3

Synthesis and Properties of One-Component Addition-Crosslinking Silicone Resin
p.9

Effect of PC Percentages on Hardness and Notched Impact Strength of PBT/PC Blends
p.17

Applying FCCCD Response Surface Method in Studying the Cutting Power of Wood Materials
p.25

Inhibition Effect of Aminophen Fluid Derivative on the Corrosion of 1070 Aluminum
p.35

Gravimetric and Statistical Analysis of Combined Protection Performance of Lavandula latifolia and Ricinus communis on Low Carbon Steel
p.43

Gravimetric and Statistical Data Analysis of the Protection Performance of Aloe vulgaris and Nicotiana tabacum Leaf Extracts on 1070 Aluminum and Mild Steel
p.53

Flexural Behavior (Load-Strain Curve) of Reinforced Concrete Beams Covered by Gypsum Layers and Exposed to Elevated Temperatures
p.63

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Applying FCCCD Response Surface Method in Studying the Cutting Power of Wood Materials

Abstract:

For machine design, determining the machine’s technical specifications as the basis for design element computation and choosing an appropriate electric motor are among the most crucial tasks. Especially, considering the scarcity of studies about tropical wood materials, it is more important to determine the specific work by the experimental approach. The scope of the study includes the research of dependency of the cutting power on the working parameters such as feed per tooth S_z, the cutting depth h, and the tooltip’s radius r in the process of wood material machining. Employing the response surface method, the experiments following the Central Composite Face design (FCCCD) plan were undertaken with 4 replicates. The author used Minitab software to process experimental results, analyze the regression equation and variance (ANOVA). In addition, the cutting force components in wood milling is also determined, which is the basis for the design of machine elements of wood milling machines and CNC woodworking machines.

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International Symposium on Advanced Material Research V

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Periodical:

Solid State Phenomena (Volume 329)

Pages:

25-31

DOI:

https://doi.org/10.4028/p-kjkk7u

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Cite this paper

Online since:

March 2022

Authors:

Nguyen Huu Loc*, Van Thuy Tran

Keywords:

Central Composite Face Design (FCCCD), Cutting Specific Work, Milling Process, Power, Tropical Wood Materials

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* - Corresponding Author

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