TY - JOUR
T1 - Ultimate failure load and stiffness of screw jointed furniture cabinets constructed of particleboard and medium-density fiberboard
AU - Kasal, All
AU - Yuksel, Mehmet
AU - Ziya Erdil, Yusuf
AU - Fathollahzadeh, Au
AU - Yildirim, Nadim
PY - 2011
Y1 - 2011
N2 - I ne onjecilve of this study was to investigate the effects of material type, screw diameter, and screw length on ultiniate failure load and stiffuess of four-sided furniture cabinets, in total, 81 four-sided test cabinets were constructed in I/i dimensions. Assembly of cabinets was done using nine different sizes of screws ranging from 3.5 by 40 mm to 5 by 50 mm. Panel materials were 18-mm-thick particleboard (PB) and 16- and 18-mm-thick medium-density fiberboard (MDF1, MDF2). Cabinets were anchored at two points located underneath the top panel and tested under static load. Loading procedures of the American National Standards Institute/Kitchen Cabinet Manufacturers Association were followed during the static tests. Test results showed that 18- and 16-mm MDF cabinets yielded higher failure loads and stiffness values compared with the 18-mm PB cabinets. Test results also indicated that increasing either screw diameter or screw length tended to have a positive effect on the failure load and stiffness values. The strongest and most rigid four-sided cabinets were obtained with 4-mm-diameter and 50-mm-long screws if the construction panel material was 18-mm-thick MDF, 5-mm-diameter and 45-mm-long screws if the construction panel material was 16-mm-thick MDF, and 5-mm-diameter and 50-mm-long screws if the construction panel material was 18-mm-thick PB.
AB - I ne onjecilve of this study was to investigate the effects of material type, screw diameter, and screw length on ultiniate failure load and stiffuess of four-sided furniture cabinets, in total, 81 four-sided test cabinets were constructed in I/i dimensions. Assembly of cabinets was done using nine different sizes of screws ranging from 3.5 by 40 mm to 5 by 50 mm. Panel materials were 18-mm-thick particleboard (PB) and 16- and 18-mm-thick medium-density fiberboard (MDF1, MDF2). Cabinets were anchored at two points located underneath the top panel and tested under static load. Loading procedures of the American National Standards Institute/Kitchen Cabinet Manufacturers Association were followed during the static tests. Test results showed that 18- and 16-mm MDF cabinets yielded higher failure loads and stiffness values compared with the 18-mm PB cabinets. Test results also indicated that increasing either screw diameter or screw length tended to have a positive effect on the failure load and stiffness values. The strongest and most rigid four-sided cabinets were obtained with 4-mm-diameter and 50-mm-long screws if the construction panel material was 18-mm-thick MDF, 5-mm-diameter and 45-mm-long screws if the construction panel material was 16-mm-thick MDF, and 5-mm-diameter and 50-mm-long screws if the construction panel material was 18-mm-thick PB.
UR - http://www.scopus.com/inward/record.url?scp=84860420555&partnerID=8YFLogxK
U2 - 10.13073/0015-7473-61.2.155
DO - 10.13073/0015-7473-61.2.155
M3 - Review article
AN - SCOPUS:84860420555
SN - 0015-7473
VL - 61
SP - 155
EP - 160
JO - Forest Products Journal
JF - Forest Products Journal
IS - 2
ER -