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The objective of this research is t
The objective of this research is to investigate the effect of particle content and grain
size of Sokka roof tile powder on the burning endurance of the composite of Sokka roof tile
powder - ripoxy R-802.The materials used were a Sokka roof tile powder (SGS), ripoxy R-802
resin, MEKPO catalyst and P-EX promotor. The Sokka roof tile powder was generated from the
rejected Sokka roof tile which was crushed into powder. The powder was sieved to result in
three size variances, which were mesh 80 retained in mesh 100 (177μm-149µm), mesh 150
retained in mesh 200 (99μm-74µm), and breaking away from mesh 200 (≤74μm). Prior to
getting mixed with the resin, SGS was heated in an oven for 45 minutes in the temperature of
105oC. Afterwards, the powder was mixed with ripoxy R-802 resin for 3 minutes. The variances
of SGS content were determined to be 10%, 20%, 30% and 40% composition. Making
composite was conducted by press mould. Fixed composites was given post curing treatment in
the temperatures of 80oC for 120 minutes. The burning testing on the composite was conducted
on the basis of the standard of ASTM D-635. The indicator of burning endurance was
determined by the data of time of burning (TOB) and rate of burning (ROB). The TOB resulted
from the time of ignition and the ROB resulted from the time of fire propagation time in the
composite. The results of this research are as follows: (1) the addition of SGS can improve the
burning endurance of the composite of SGS-ripoxy R-802 as indicated by the increase in the
TOB but the decrease of ROB due to the addition of the content of SGS; (2) the small size of
the particle of SGS can increase the burning endurance of the composite of SGS-ripoxy R-802
as signified by the increase in the TOB but the decrease in the ROB due to the small size of the
particle of SGS which breaks away from mesh 200 (≤74µm).
size of Sokka roof tile powder on the burning endurance of the composite of Sokka roof tile
powder - ripoxy R-802.The materials used were a Sokka roof tile powder (SGS), ripoxy R-802
resin, MEKPO catalyst and P-EX promotor. The Sokka roof tile powder was generated from the
rejected Sokka roof tile which was crushed into powder. The powder was sieved to result in
three size variances, which were mesh 80 retained in mesh 100 (177μm-149µm), mesh 150
retained in mesh 200 (99μm-74µm), and breaking away from mesh 200 (≤74μm). Prior to
getting mixed with the resin, SGS was heated in an oven for 45 minutes in the temperature of
105oC. Afterwards, the powder was mixed with ripoxy R-802 resin for 3 minutes. The variances
of SGS content were determined to be 10%, 20%, 30% and 40% composition. Making
composite was conducted by press mould. Fixed composites was given post curing treatment in
the temperatures of 80oC for 120 minutes. The burning testing on the composite was conducted
on the basis of the standard of ASTM D-635. The indicator of burning endurance was
determined by the data of time of burning (TOB) and rate of burning (ROB). The TOB resulted
from the time of ignition and the ROB resulted from the time of fire propagation time in the
composite. The results of this research are as follows: (1) the addition of SGS can improve the
burning endurance of the composite of SGS-ripoxy R-802 as indicated by the increase in the
TOB but the decrease of ROB due to the addition of the content of SGS; (2) the small size of
the particle of SGS can increase the burning endurance of the composite of SGS-ripoxy R-802
as signified by the increase in the TOB but the decrease in the ROB due to the small size of the
particle of SGS which breaks away from mesh 200 (≤74µm).
0/5000
The objective of this research is to investigate the effect of particle content and grainsize of Sokka roof tile powder on the burning endurance of the composite of Sokka roof tilepowder - ripoxy R-802.The materials used were a Sokka roof tile powder (SGS), ripoxy R-802resin, MEKPO catalyst and P-EX promotor. The Sokka roof tile powder was generated from therejected Sokka roof tile which was crushed into powder. The powder was sieved to result inthree size variances, which were mesh 80 retained in mesh 100 (177μm-149µm), mesh 150retained in mesh 200 (99μm-74µm), and breaking away from mesh 200 (≤74μm). Prior togetting mixed with the resin, SGS was heated in an oven for 45 minutes in the temperature of105oC. Afterwards, the powder was mixed with ripoxy R-802 resin for 3 minutes. The variancesof SGS content were determined to be 10%, 20%, 30% and 40% composition. Makingcomposite was conducted by press mould. Fixed composites was given post curing treatment inthe temperatures of 80oC for 120 minutes. The burning testing on the composite was conductedon the basis of the standard of ASTM D-635. The indicator of burning endurance wasdetermined by the data of time of burning (TOB) and rate of burning (ROB). The TOB resultedfrom the time of ignition and the ROB resulted from the time of fire propagation time in thecomposite. The results of this research are as follows: (1) the addition of SGS can improve theburning endurance of the composite of SGS-ripoxy R-802 as indicated by the increase in the
TOB but the decrease of ROB due to the addition of the content of SGS; (2) the small size of
the particle of SGS can increase the burning endurance of the composite of SGS-ripoxy R-802
as signified by the increase in the TOB but the decrease in the ROB due to the small size of the
particle of SGS which breaks away from mesh 200 (≤74µm).
TOB but the decrease of ROB due to the addition of the content of SGS; (2) the small size of
the particle of SGS can increase the burning endurance of the composite of SGS-ripoxy R-802
as signified by the increase in the TOB but the decrease in the ROB due to the small size of the
particle of SGS which breaks away from mesh 200 (≤74µm).
Sedang diterjemahkan, harap tunggu..
Tujuan dari penelitian ini adalah untuk mengetahui pengaruh konten partikel dan butir
ukuran Sokka genteng bedak pada daya tahan pembakaran gabungan dari Sokka genteng
bubuk - bahan R-802.The ripoxy digunakan adalah Sokka atap genteng bubuk (SGS ), ripoxy R-802
resin, katalis MEKPO dan P-EX promotor. The Sokka genteng bubuk dihasilkan dari
ditolak Sokka genteng yang hancur menjadi bubuk. Serbuk diayak untuk menghasilkan
tiga variasi ukuran, yang mesh 80 dipertahankan dalam jala 100 (177μm-149μm), mesh 150
dipertahankan dalam jala 200 (99μm-74μm), dan melepaskan diri dari jaring 200 (≤74μm). Sebelum
mendapatkan dicampur dengan resin, SGS dipanaskan dalam oven selama 45 menit pada suhu
105oC. Setelah itu, bubuk dicampur dengan resin R-802 ripoxy selama 3 menit. Varians
dari konten SGS bertekad untuk menjadi 10%, 20%, 30% dan% komposisi 40. Membuat
komposit dilakukan dengan cetakan press. Komposit tetap diberikan pengobatan pasca curing di
suhu 80oC selama 120 menit. Pengujian pembakaran pada komposit ini dilakukan
atas dasar standar ASTM D-635. Indikator ketahanan terbakar itu
ditentukan oleh data saat pembakaran (TOB) dan laju pembakaran (ROB). The TOB hasil
dari waktu pengapian dan ROB dihasilkan dari waktu waktu propagasi api di
komposit. Hasil penelitian ini adalah sebagai berikut: (1) penambahan SGS dapat meningkatkan
daya tahan pembakaran gabungan dari SGS-ripoxy R-802 yang ditunjukkan dengan peningkatan
TOB tetapi penurunan ROB karena penambahan isi SGS; (2) ukuran kecil
partikel dari SGS dapat meningkatkan daya tahan tubuh membakar komposit dari SGS-ripoxy R-802
yang ditandai dengan peningkatan TOB tetapi penurunan ROB karena ukuran kecil dari
partikel SGS yang melepaskan diri dari jaring 200 (≤74μm).
ukuran Sokka genteng bedak pada daya tahan pembakaran gabungan dari Sokka genteng
bubuk - bahan R-802.The ripoxy digunakan adalah Sokka atap genteng bubuk (SGS ), ripoxy R-802
resin, katalis MEKPO dan P-EX promotor. The Sokka genteng bubuk dihasilkan dari
ditolak Sokka genteng yang hancur menjadi bubuk. Serbuk diayak untuk menghasilkan
tiga variasi ukuran, yang mesh 80 dipertahankan dalam jala 100 (177μm-149μm), mesh 150
dipertahankan dalam jala 200 (99μm-74μm), dan melepaskan diri dari jaring 200 (≤74μm). Sebelum
mendapatkan dicampur dengan resin, SGS dipanaskan dalam oven selama 45 menit pada suhu
105oC. Setelah itu, bubuk dicampur dengan resin R-802 ripoxy selama 3 menit. Varians
dari konten SGS bertekad untuk menjadi 10%, 20%, 30% dan% komposisi 40. Membuat
komposit dilakukan dengan cetakan press. Komposit tetap diberikan pengobatan pasca curing di
suhu 80oC selama 120 menit. Pengujian pembakaran pada komposit ini dilakukan
atas dasar standar ASTM D-635. Indikator ketahanan terbakar itu
ditentukan oleh data saat pembakaran (TOB) dan laju pembakaran (ROB). The TOB hasil
dari waktu pengapian dan ROB dihasilkan dari waktu waktu propagasi api di
komposit. Hasil penelitian ini adalah sebagai berikut: (1) penambahan SGS dapat meningkatkan
daya tahan pembakaran gabungan dari SGS-ripoxy R-802 yang ditunjukkan dengan peningkatan
TOB tetapi penurunan ROB karena penambahan isi SGS; (2) ukuran kecil
partikel dari SGS dapat meningkatkan daya tahan tubuh membakar komposit dari SGS-ripoxy R-802
yang ditandai dengan peningkatan TOB tetapi penurunan ROB karena ukuran kecil dari
partikel SGS yang melepaskan diri dari jaring 200 (≤74μm).
Sedang diterjemahkan, harap tunggu..
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- Every jack-up shall have adequate struct
- kerja lagi, pusing lagi.. semangat buat
