Gürleyen, LeventSubaşı, Serkan2020-04-302020-04-3020091300-1884https://hdl.handle.net/20.500.12684/4799WOS: 000273608300003The cutters and machines used in processing have to be exposed to different compulsions by different wooden materials used in furniture industry. Therefore, in this article, the compulsions of hard wooden materials against to the horizontal (bottom) fraiser machine and cutter type have been studied. In the experiments, four types of hard tree have been used as East Beech (Fagus orientalis L.), stemless oak (quercus borealis L.), ordinary ashen (fraxinus excelsior L.) and deceitful locust wooden. The compulsions value of horizontal fraise machine and cutters have been determined according to variable wooden material type, motor revolution number and driver dispatch speeds. As a result; the most amount of compulsion has been observed on stemless oak and followed by deceitful locust, ordinary ashen and east beech tree respectively by applying the same processes. It is determined that in planning processes which lower motor revolution and lower driver dispatch speed applied, the consumption of current and the compulsion of wooden materials against to machine and cutters are reduced. Each type of tree materials have been showing proportional diversities by considering their different consumption of current depending on their specific gravities (r12) and Brinell hardness values (H(parallel to)). The realized regression model equations have been proving that depending on motor revolution speed and driver dispatch speed values, the current values of each wooden material can be forecasted with a 3% error in a reasonable way. Depended on the results, it is considered that it can be possible to get recovery and also to provide benefit for economy in wood shavings mechanic by using computer technology.trinfo:eu-repo/semantics/closedAccessWooden materialresistancecompulsionenergy consumptionrevolution numberdispacth speedArticle242209219N/A