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All Journal MANAJEMEN HUTAN TROPIKA Journal of Tropical Forest Management Jurnal Silvikultur Tropika (JST) Jurnal Ilmu dan Teknologi Hasil Hutan Forum Pasca Sarjana JURNAL HUTAN LESTARI Jurnal Bahan Alam Terbarukan Indonesian Journal of Forestry Research Jurnal Penelitian Hasil Hutan Jurnal Teknik Sipil Jurnal Ilmu dan Teknologi Kayu Tropis PERENNIAL Journal of Sylva Indonesiana Jurnal Penelitian Hasil Hutan Wood Research Journal : Journal of Indonesian Wood Research Society Wood Research Journal : Journal of Indonesian Wood Research Society Jurnal Sylva Lestari JURNAL HUTAN TROPIS Makara Journal of Science Makara Journal of Technology

Yusuf Sudo Hadi

Departemen Hasil Hutan, Fakultas Kehutanan, Institut Pertanian Bogor, Dramaga Bogor.

Author-ID : 272298

Agriculture, Biological Sciences & Forestry Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Chemistry Civil Engineering, Building, Construction & Architecture Decision Sciences, Operations Research & Management Earth & Planetary Sciences Education Electrical & Electronics Engineering Energy Engineering Environmental Science Materials Science & Nanotechnology Mechanical Engineering Social Sciences

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PEMANFAATAN CAMPURAN ARANG AKTIF KAYU Muntingia calabura L. DAN BAKTERI Escherichia coli PADA PENGOLAHAN LIMBAH KROMIUM INDUSTRI ELEKTROPLATING Endang Sri Lestari; Yusuf Sudo Hadi; Gustan Pari
Jurnal Penelitian Hasil Hutan Vol 37, No 2 (2019): Jurnal Penelitian Hasil Hutan
Publisher : Pusat Penelitian dan Pengembangan Hasil Hutan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20886/jphh.2019.37.2.105-122

Keberadaan logam berat krom dari limbah industri elektroplating dapat membahayakan kesehatan manusia, di antaranya menyebabkan kanker dan gagal ginjal. Untuk mengatasi masalah ini, dilakukan upaya pengolahan limbah dengan cara adsorpsi menggunakan arang aktif dari kayu. Tulisan ini mempelajari kondisi optimal uji adsorpsi arang aktif kayu Muntingia calabura dan kemampuan bakteri Escherichia coli melakukan biodegradasi krom (VI) menjadi krom (III) pada pengolahan limbah krom industri elektroplating. Arang kayu dibuat pada suhu 500˚C selama 1 jam dan diaktivasi dengan uap air panas pada suhu 800˚C pada variasi waktu kontak 70-110 menit dengan tekanan 120 dan 150 mBar. Uji adsorpsi dilakukan dengan variasi konsentrasi awal adsorbat 20-100 mg/L, waktu kontak 45-105 menit, dan kecepatan pengadukan 100-300 rpm. Uji biodegradasi menggunakan bakteri Escherichia coli yang diinkubasi di dalam nutrient broth yang mengandung limbah hasil adsorpsi. Hasil penelitian memperlihatkan bahwa kondisi optimal uji adsorpsi adalah konsentrasi awal 70 mg/L, kecepatan pengadukan 150 rpm dan waktu kontak pada 75 menit, dengan efektivitas sebesar 86,7%. Efektifitas biodegradasi krom (VI) menjadi krom (III) adalah 98,6%.

SIFAT PAPAN SERAT DARI KAYU ACACIA MANGIUM WILLD., EUCALYPTUS DEGLUPTA BLUME DAN EUCALYPTUS UROPHYLLA BLAKE Kayano Purba; Deden Edi Rusfiandi; Yusuf Sudo Hadi; M Rosid
Jurnal Penelitian Hasil Hutan Vol 6, No 5 (1989): Jurnal Penelitian Hasil Hutan
Publisher : Pusat Penelitian dan Pengembangan Hasil Hutan

This paper deals with the study on the fiberboard properties of A. mangium, E. deglupta and E. urophylla. The cooking process applied consisted of hot caustic soda semi chemical process and prehydrolysis prior to mechanical pulping process.The hot caustic soda semi chemical process used the condition as follows: alkali concentration was 35 g/l, wood to liquor ratio was 1 : 8, maximum temperature was 100° C and this temperature was kept for two hours. The prehydrolisis prior to mechanical process was prepared in the autoclave with the wood to liquor ratio ;of . 1 : 8, maximum temperature was 175 ± 1°C and this temperature was kept for 60 seconds, and the pressure of 7 - 12 kg/cm2. Sheet forming was done by wet felting process in the deckle box, the pressing pressure was 50 kg/cm2, temperature was 170° C for 10 mi- nutes. Heat treatment was given for 3 hours at temperature of 170° C without pressure.The result shows that the cooking process has a significant influences on the moisture content, water absorption, thickness swelling, tensile strength parallel to surface and modulus of rupture of the fiberboard. Likewise, the wood species has a significant influence on pulp yield, moisture content, water absorption and thickness swelling. The interac- tion of both factors only significantly influences modulus of rupture and modulus of elasticity.The highest pulp yield was from A. mangium followed by E. deglupta, and E. urophylla. Almost overall properties of fiberboard met the FAO standard, except for the water absorption and tensile strength parallel to surface of E. uro- phylla. The mechanical process produced fiberboard with better water absorption and thickness swelling than that of hot caustic soda semi chemical process. On the other hand the tensile strength parallel to surface and modulus of rupture of the fiberboard produced by hot caustic soda semi-chemical process was found better than that of the mechanical pulping.

SUATU TINJAUAN PEMANFAATAN KAYU HUTAN TANAMAN UNTUK GLULAM Yusuf Sudo Hadi; Andi Sri Rahayu Diza Lestari
Jurnal Penelitian Hasil Hutan Vol 40, No 1 (2022): Jurnal Penelitian Hasil Hutan
Publisher : Pusat Penelitian dan Pengembangan Hasil Hutan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20886/jphh.2022.40.1.31-36

Hutan tanaman umumnya dipanen pada umur kurang dari 10 tahun, sehingga kayu berdiameter kecil, inferior sifat fisis-mekanisnya, serta rentan terhadap bio-deteriorasi. Agar kayu ini dapat dimanfaatkan lebih berdaya-guna, maka rekayasa pembuatan glued-laminated timber (glulam) dapat diaplikasikan, sehingga diperoleh batang kayu berukuran lebih besar dan ketahanannya terhadap serangan organisme perusak kayu dapat ditingkatkan. Saat ini, jenis kayu hutan tanaman yang telah dipelajari untuk dibuat menjadi adalah jabon (Anthocephalus cadamba), karet (Hevea brasiliensis), mahoni (Swietenia sp.), mangium (Acacia mangium), manii (Maesopsis eminii), mindi (Melia azedarach), pinus (Pinus merkusii), sengon (Falcataria moluccana), dan sungkai (Peronema canescens), sedangkan kayu dari hutan alam untuk kombinasinya yaitu kayu kempas (Koompassia malaccensis) dan merbau (Instia sp.). Sementara perekat yang digunakan dalam pembuatan glulam yaitu perekat nabati tanin mangium, tanin mahoni, dan tanin merbau, serta perekat sintetis yaitu isosianat dan phenol resorcinol formaldehyde (PRF). Hasilnya menunjukkan bahwa glulam yang dibuat dengan perekat berbasis tanin mempunyai sifat fisis dan mekanis sebanding dengan kayu solidnya maupun dengan menggunakan perekat PRF. Demikian pula sifat fisis-mekanis glulam dengan perekat isosianat tidak berbeda dengan kayu solidnya, kecuali keteguhan geser glulam lebih rendah dari kayu solidnya, selain itu glulam tersebut tahan terhadap delaminasi baik pada perendaman air dingin maupun air mendidih, serta berhasil memenuhi standar JAS 1152-2007. Pada pembuatan glulam dengan impregnasi polistirena pada kayu sengon dan mindi menunjukkan bahwa impregnasi polistirena tersebut memberikan pengaruh perubahan warna yang sangat kecil, keteguhan rekatnya sebanding dengan kayu solidnya, dan ketahanan terhadap serangan rayap tanah (Coptotermes curvignathus Holmgren) meningkat.

PENGARUH PENAMBAHAN TANIN PADA FENOL FORMALDEHIDA TERHADAP SIFATNYA SEBAGAI PEREKAT KAYU LAPIS Adi Santoso; Suminar S Achmadi; Yusuf Sudohadi; Sujanto) Sujanto)
Jurnal Penelitian Hasil Hutan Vol 15, No 2 (1997): Buletin Penelitian Hasil Hutan
Publisher : Pusat Penelitian dan Pengembangan Hasil Hutan

Perekat fenol formaldehida merupakan perekat yang dipakai dalam pembuatan kayu lapis eksterior. Untuk mengurangi biaya dapat ditambahkan bahan lain pada perekat tersebut. Pada penelitian ini dilakukan penambahan tanin dari 3 macam tumbuhan. Tujuan penelitian untuk mengetahui pengaruh derajat keasaman (pH) tanin mangium, mimosa dan quebracho sebagai campuran perekat fenol formaldehida terhadap sifat perekat dan terhadap keteguhan rekat kayu lapis tusam.Pengaruh pH terhadap sifat perekat adalah: semakin basa pH tanin, maka perekat semakin menggumpal dengan demikian waktu gelatinasi perekat semakin pendek. Nilai keteguhan rekat kayu lapis tertinggi tercapai pada perlakuan pH tanin 8. Semakin tinggi nilai pH, keteguhan rekat kayu lapis cenderung makin menurun. Namun demikian semua perlakuan pH dari ketiga jenis tanin masih memenuhi standar Jepang untuk kayu lapis tipe I.

CAMPURAN SAGU DAN ILES-ILES SEBAGAI EKSTENDER PEREKAT UREA FORMALDEHIDA KAYU LAPIS Suwardi Sumadiwangsa; Yusuf Sudo Hadi; Jhon Novarly Simanjuntak; Suwandi Kliwon
Jurnal Penelitian Hasil Hutan Vol 4, No 3 (1987): Jurnal Penelitian Hasil Hutan
Publisher : Pusat Penelitian dan Pengembangan Hasil Hutan

In 1984 Indonesia required more than 64.000 ton of wheat flour for extender of urea formaldehyda (UF) adhesive in plywood industry. It is considered more economical when the wheat flour can be substituted by locally available carbohydrate such as sago (Metroxylon sp.). However, sago alone gives poor quality as an extender of UF adhesive.Iles-iles (Amorphophallus oncophyllus) is another potential source of carbohydrate. This contains more protein and mannan than that of wheat flour. Therefore, it is deemed necessary to explore the posisibility of mixing sago and iles-iles as a combined substitute for wheat flour as extender of UF adhesive.This work is intended to obtain optimal ratio of sago and iles-iles formulation, and then to compare its performance with that of wheat flour extender. This study comprise of 5 levels of sago and iles-iles mixed and 3 levels of flour extender, each of which were having 5 replicates aplied for plywood adhesion.The 713 ratio of sago and iles-iles is the same as, if not better than, wheat flour extender. The extender content (X) and plywood bonding strength (Y) for each of the extender was linearly correlated. It is interesting to note that the 614 ratio gives very small slope (B) in its linear regression, in contrast to the others.Although the price of iles-iles was comparable to the wheat flour's, the lles-iles gives higher bonding strength at lower proportion compared with that of the wheat flour extender.

PENGARUH KADAR EKSTENDER DAN WAKTU KEMPA TERHADAP SIFAT FISIS MEKANIS LBV DENGAN PEREKAT PHENOL FORMALDEHIDA Adi Santoso; Yusuf Sudo Hadi; Raudhah Juliati
Jurnal Penelitian Hasil Hutan Vol 28, No 4 (2010): Jurnal Penelitian Hasil Hutan
Publisher : Pusat Penelitian dan Pengembangan Hasil Hutan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20886/jphh.2010.28.4.380-393

Aplikasi bambu sebagai panil komposit masih terbatas. Pemanfaatan bambu untuk Laminated Bamboo-Veneer (LBV) belum banyak ditemukan. Dalam rangka diversifikasi produk bambu maka dilakukan penelitian mengenai pengaruh kadar ekstender dan waktu kempa terhadap sifat fisis mekanis venir bambu lamina dengan perekat phenol formaldehida. Penelitian ini bertujuan untuk mendapatkan produk LBV yang kualitasnya memenuhi ataupun setara dengan produk panil komposit yang selama ini telah dikenal. Penelitian ini menggunakan bambu tali sebagai bahan baku venir berukuran (40 x 2 x 0,1) cm dengan perekat phenol formaldehida. Faktor perlakuan yang dikenakan yakni penambahan ekstender berupa tepung terigu dengan kadar 0%, 2,5%, 5%, 10% , dan waktu pengempaan panas 10 dan 20 menit. Produk yang dihasilkan berupa LBV 15 lapis berukuran (40 x 40 x 1,5) cm. Pengujian produk meliputi kualitas perekat dan LVB, masing-masing mengacu pada SNI (1998) dan SNI (2000). Hasil penelitian menunjukkan bahwa kualitas perekat PF yang dibuat, memenuhi persyaratan SNI (1998) perekat PF untuk penggunaan kayu lapis. Produk LBV dengan kombinasi perlakuan kadar ekstender 5% dengan waktu kempa 10 menit sebahagian besar memenuhi persyaratan SNI (2000). Kualitas produk LBV tersebut setara dengan panil kayu lapis yang tergolong ke dalam klasifikasi mutu khusus 80E.

Ketahanan Kayu Sengon terhadap Pycnophorus sanguineus dan Pleurotus djamor untuk Uji Standar Nasional Indonesia (SNI) 01-7207-2006 Elis Nina Herliyana; Nifa Hanifa; Yusuf Sudo Hadi; Ariana Ariana; Kunio Tsunoda
Jurnal Silvikultur Tropika Vol. 2 No. 3 (2011): Jurnal Silvikultur Tropika
Publisher : Departemen Silvikultur, Fakultas Kehutanan dan Lingkungan, Institut Pertanian Bogor (IPB)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29244/j-siltrop.2.3.%p

The Resistance of Sengon against Pycnoporus sanguineus and Pleurotus djamor Using the SNI Methods (Standar Nasional Indonesia) 01-7207-2006Fungi is a organism which does not have chlorophyll and receives the energy resources by absorption system to the organic matters. A wood contains cellulose, hemicelluloses, and lignin which in the wood decay fungi is very good needs. The kind of tree which the most acquainted with commercial trading till now is about 400 kinds of botanical (species). Around 80 – 85% of Indonesian woods had low class which it’s very easy attacked by wood decay fungi for instance Sengon. Kinds of it which potentially most decaying off the woods are Schizophyllum commune, Pycnoporus sanguineus, Dacryopinax spathularia, and Pleurotus djamor. This study was purposed to determine the potential of two kinds wood decay fungi to Sengon based on SNI Method (Standar Nasional Indonesia : SNI 01-7207-2006). Based on SNI 01-7207-2006 point out of wood weight loss percentage by the wood decay fungi knows that Sengon belong to IV - V resistance class (not resistant till very not resistant). The wood weight loss percentage was Sengon by P. sanguineus breed (31,09%) belong to V resistance class (very not resistant) and the wood weight loss percentage by P. djamor (20,51 %) belong to IV (not resistant).

Schizophyllum commune Fr. Sebagai Jamur Uji Ketahanan Kayu Standar Nasional Indonesia pada Empat Jenis Kayu Rakyat : Sengon (P. falcataria), Karet (H. brasiliensis), Tusam (P. merkusii), Mangium (A. mangium) Elis Nina Herliyana; Laila Fithri Maryam; Yusuf Sudo Hadi
Jurnal Silvikultur Tropika Vol. 2 No. 3 (2011): Jurnal Silvikultur Tropika
Publisher : Departemen Silvikultur, Fakultas Kehutanan dan Lingkungan, Institut Pertanian Bogor (IPB)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29244/j-siltrop.2.3.%p

Schizophyllum commune Fr. As Indonesian National Standard Wood Resistance Test Fungi on Four Kinds of Community Wood : Sengon, Rubber, Tusam, and MangiumSchizophyllum commune Fr. is a vicious wood decaying fungi that in several cases could cause to 70 % weight loss. These fungi could attack various kind of woods (more than 25 wood species). It has been widely distributed especially in tropical area, and could easily grow in many conditions. This wood decaying fungi has an ability to decompose cell components of the woods through enzymatic processes from a complex to simpler form. Resistance of wood is strongly influenced by the content of extractive substances, although not all of these extractive substances are nocuous to wood destroying organisms. Based on the resistance, most common community woods have a low grade of resistance (grade III, IV, and V). This study aimed to determine the resistance of the four kind community woods which are sengon wood (P. falcataria), rubber (H. brasiliensis), tusam (P. merkusii), and mangium (A. mangium) against S. commune based on SNI 01.7202-2006. Parameters of the wood resistance against S. commune attack could be seen from the sample of weight loss. Based on the results of testing, it was known that sengon wood resistance was classified to a class IV-V (weak to extremely weak resistance to fungal attack) with the weight loss of longitudinal sengon and cross sengon respectively 32.2 and 15.7 %. Rubber wood resistance was classified to a class IV (weak resistance) with the weight loss value of longitudinal rubber and cross rubber respectively 13.8 and 12.0 %. Tusam and mangium wood’s resistance was clasified to a class III (moderate resistance) with the weight loss value of longitudinal tusam and cross tusam respectively 8.0 and 9.3 %. As for the mangium, the weight loss of longitudinal mangium and cross mangium respectively 6.3 and 6.3 %. Thus, the recommended wood as the control for the test of resistance against S.commune attack was sengon wood with the longitudinal direction of fiber. Fungi S. communne could use as the standard and was a recommended fungi for the the resistance test of the wood as it could cause the weight loss up to 3.2 % on sengon wood with the longitudinal direction of fiber.

Kekakuan dan Kekuatan Lentur Maksimum Balok Glulam dan Utuh Kayu Akasia Indah Sulistyawati; Naresworo Nugoho; Surjono Suryokusumo; Yusuf Sudo Hadi
Jurnal Teknik Sipil Vol 15 No 3 (2008)
Publisher : Institut Teknologi Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5614/jts.2008.15.3.3

Abstrak. Glulam merupakan salah satu metoda mengatasi keterbatasan dimensi bahan dasar kayu yang tersedia. Dengan mempersiapkan lamina-lamina dan menyusunnya serta melakukan proses perekatan antar permukaan lamina dapat menghasilkan dimensi balok sesuai kebutuhan. Tujuan dari penelitian ini adalah mendapatkan nilai kekakuan dan kekuatan lentur maksimum balok glulam dengan ketebalan lamina yang berbeda serta membandingkannya terhadap balok utuh. Kekakuan dinyatakan dalam MOE (modulus of elastcity), dan kekuatan lentur maksimum dinyatakan dalam MOR (modulus of rupture). Penelitian ini menggunakan kayu Akasia (Acacia mangium) termasuk kayu dengan kerapatan menengah. Balok glulam dibagi menjadi 3 (tiga) kelompok ketebalan lamina, masing-masing 20 mm, 15 mm and 10 mm. Selain balok glulam disiapkan pula balok utuh. Penampang melintang balok glulam maupun balok utuh adalah 60 mm x 60 mm. Perekat yang digunakan adalah Polyurethane merupakan Water Based Polymer Isocyanate. Perekat terdiri dari dua bagian; begian pertama adalah PI 3100 sebagai cairan resin, dan H7 sebagai cairan pengeras. Berat labur perekat diaplikasikan sebesar 280 g/m2 pada kedua permukaan rekatan. Prosedur pengujian dilaboratorium dilakukan berdasarkan ASTM D143-05, Standard Test Methods for Small Clear Specimen of Wood. Hasil penelitian menunjukkan bahwa konfigurasi penampang melintang balok glulam mempengaruhi nilai MOE dan MOR-nya; semakin tipis ketebalan lamina mempunyai tendensi semakin tinggi MOE dan MOR-nya; nilai MOE dan MOR balok glulam tidak berbeda nyata dengan balok utuh, dan kedua nilai tersebut dipengaruhi oleh tipe kerusakan balok. Abstract. Glued Laminated Beam represents one method in overcoming limited dimension of available raw material of wood. By stacking sequence of several timber layers to be bonded with glue perfectly, the dimension which was required could be obtained. The objectives of this research were to determine the stiffness and maximum bending strength of glued laminated beam (glulam) with different thickness of lamina; it was compared to solid beam. The stiffness was represented as MOE (modulus of elasticity), and maximum bending strength as MOR (modulus of rupture). This research used Acacia (Acacia mangium) as a medium density wood. Glulam beam was divided into 3 (three) groups based on the thickness of lamina, 20 mm, 15 mm and 10 mm respectively. Solid beam was also prepared besides glulam beam. The cross section of glulam and solid beam was 60 mm x 60 mm. The adhesive, Polyurethane was used as Water Based Polymer Isocyanate. It consisted of two parts; the first part of the adhesive was PI 3100 as a liquid resin, and H7 as a liquid hardener. The two parts were mixed in the ratio of 100:15 by weight. The glue spread of adhesive was applied 280 g/m2 in a double spread. The procedure of investigation in the laboratory was tested in accordance with ASTM D143-05, Standard Test Methods for Small Clear Specimen of Wood. The result showed that the cross section configuration of glulam beam influenced in the value of MOE and MOR; the lesser the thickness of lamina the higher MOE and MOR value tendency were; the MOE and MOR of glulam beam were not significant different with solid beam, and it were influenced by the type of failure.

Kualitas Papan Zephyr Pelepah Sawit dan Papan Komposit Komersial Sebagai Bahan Bangunan Lusita Wardani; Muhamad Yusram Massijaya; Yusuf Sudo Hadi; I Wayan Darwaman
Jurnal Teknik Sipil Vol 22 No 2 (2015)
Publisher : Institut Teknologi Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5614/jts.2015.22.2.2

Abstrak. Papan zephyr dapat dibuat dari pelepah sawit dari limbah perkebunan kelapa sawit. Penelitian ini bertujuan membandingkan kualitas Papan Zephyr Pelepah Sawit (PZP) dengan beberapa jenis papan bio-komposit komersial (plywood, papan blok dan papan partikel) yang ada dipasar berdasarkan sifat fisis-mekanisnya. PZP yang dibandingkan adalah papan zephyr dibuat dari 3 lapis lembaran zephyr yang disusun bersilang dengan perekat urea formaldehida. Papan komposit komersial diambil secara acak di toko bahan bangunan. Hasil penelitian diperoleh PZP 3 lapis, plywood, papan blok dan papan partikel masing-masing mempunyai kerapatan 0.79 g cmâ»³, 0.81 g.cmâ»³, 0.40 g.cmâ»³ dan 0.67 g.cmâ»³. Nilai rata-rata MOE masing-masing adalah 617.6(x10² kg.cmâ»²), 728.47 (x10² kg.cmâ»²), 398.74 (x10² kg.cmâ»²) dan 199.22(x10² kg.cmâ»²) dan MOR 405 kg cmâ»², 541 kg cmâ»²., 207 kg cmâ»². dan 119 kg cmâ»² serta kuat pegang sekrup masing-masing, 88.49 kg, 92 kg, 53.6 kg dan 61.4 kg. Papan zephyr hasil pengolahan limbah pelepah sawit ternyata mempunyai kualitas yang sama baiknya dengan plywood, bahkan lebih baik daripada papan blok dan papan partikel yang diuji. Abstract. Zephyr board can be made from oil palm petiole, the waste from oil palm plantation. The objective of this study was to compare the quality of palm petiole zephyr board (PPZB) and the quality of several types of commercial biocomposite boards (plywood, block board, and particle board) available in market based on their physicalmechanical properties. PPZB that was compared was the zephyr board made from 3 layers of zephyr strands arranged crossly with urea formaldehyde adhesive. The target density was 0.8 g cmâ»³, and the board size was 300 mm x 300 mm x 10 mm at a pressing temperature of 120 â°C, and a pressure of 25 kg cmâ»² for 10 minutes. The commercial composite boards were taken randomly from a hardware store. The results of the study showed that3-layer PPZB, plywood, block board and particle board each had the density of 0.79 g cmâ»³, 0.81 g.cmâ»³, 0.40 g.cmâ»³ and 0.67 g.cmâ»³, respectively. The respective average value of MOE of each board was 617.6(x10² kg.cmâ»²), 728.47(x10² kg.cmâ»²), 398.74 (x10² kg.cmâ»²) and 199.22(x10² kg.cmâ»²), and that of MOR of each board was 405 kg cmâ»², 541 kg cmâ»², 207 kg cmâ»², and 119 kg cmâ»², while the screw holding strength of each was 88.49 kg, 92 kg, 53.6 kg and 61.4 kg, respectively.

Co-Authors . Suhasman A.A. Ketut Agung Cahyawan W Abdillah, Imam Busyra Achmad Solikhin Adi Santoso Adi Santoso Adi Santoso Adi Santoso ADI SANTOSO Andi SRD Lestari Andi Sri Rahayu Diza Lestari Andri Tri Atmojo Apri H Iswanto Apri Heri Iswanto Ariana Ariana Arif Nuryawan Arif NURYAWAN Astari, Lilik Astuti Arif Barly Barly Barly Barly Darwaman, I Wayan Darwaman, I Wayan Dede Hermawan Deden Edi Rusfiandi Desyanti Desyanti Dian Setyaningsih Dina SETYAWATI Dwi J Priyono Elis Nina Herliyana Endang Sri Lestari Faisal Mahdie Fauzi Febrianto Gina Gina Bachtiar Gustan Pari I Wayan Darmawan I Wayan Darwaman I Wayan Darwaman I.G.K. Tapa Darma Indah Sulistyawati Indah Sulistyawati, Indah Isna Yuniar Wardhani Jajang Suryana Jamaludin MALIK Jamaludin MALIK Jasni Jasni Jasni Jasni Jhon Novarly Simanjuntak Kayano Purba Kunio Tsunoda Kurnia Wiji Prasetiyo Laila Fithri Maryam Laksono Trisnantoro Lusita WARDANI Lusita WARDANI Lusita Wardani Lusita Wardani Lusita Wardani M Rosid Mangurai, Silvia Uthari Nuzaverra Mayang Massijaya, Muh, Yusram Massijaya, Muhamad Yusram Massijaya, Muhamad Yusram Muh Yusram Massijaya Muh Yusram Massijaya, Muh Yusram Muh. Yusram Massijaya Muh. Yusram Massijaya Muhamad Yusram Massijaya Muhamad Yusram Massijaya Muhamad Yusram Massijaya Muhammad Adly Rahandi Lubis Muhammad Firdaus Muhammad Iqbal Adi Baskara Muhammad Iqbal Maulana Muhammad Y Massijaya Munadian, Munadian Naresworo Nugroho Nifa Hanifa Nurwati Hadjib Nurwati Hadjib Nurwati Hadjib Raudhah Juliati Raudhah Juliati, Raudhah Rita Kartika Sari Rohny Setiawan Maail Salim Hiziroglu Siti Aisyah Siti Nikmatin Solikhin, Achmad Subyakto Subyakto SUHASMAN . Suhasman Suhasman Sujanto) Sujanto) Sulaeman Yusuf Suminar S Achmadi Surdiding Ruhendi Surdiding RUHENDI Surjono Surjokusumo Surjono Suryokusumo Surjono Suryokusumo, Surjono Suwandi Kliwon Suwardi Sumadiwangsa Syamani, Firda Aulya Tengku Muhammad Renzy Hariz Wahyu Hidayat Wardani, Lusita Wardani, Lusita Y. Afidudin Y. Afidudin, Y.

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