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541 to 550 of 11,821 Results

Figure 1. blank specimen coating A (a), blank specimen coating B (b), bare mild steel (c).JPG Nov 13, 2018 - Evaluation of anticorrosion and antifouling paint performance after exposure under seawater Surabaya–Madura (Suramadu) bridge JPEG Image - 21.5 KB - MD5: 728adf4854051f5bd1c1f6ac7c64be55 Data Figure 1. blank specimen coating A (a), blank specimen coating B (b), bare mild steel (c)
Table 1. Typical composition of mild steel used in the study (wt.%).JPG Nov 13, 2018 - Evaluation of anticorrosion and antifouling paint performance after exposure under seawater Surabaya–Madura (Suramadu) bridge JPEG Image - 18.8 KB - MD5: 96f6c198d9535de6b0ce74586dbea743 Data Table 1. Typical composition of mild steel used in the study (wt.%)
Table 2. Physical and mechanical properties of the blank specimens.JPG Nov 13, 2018 - Evaluation of anticorrosion and antifouling paint performance after exposure under seawater Surabaya–Madura (Suramadu) bridge JPEG Image - 21.9 KB - MD5: 26eb11dc0d14961e207b589c545624b9 Data Table 2. Physical and mechanical properties of the blank specimens
Table 3. Physical and mechanical properties specimens after exposure.JPG Nov 13, 2018 - Evaluation of anticorrosion and antifouling paint performance after exposure under seawater Surabaya–Madura (Suramadu) bridge JPEG Image - 29.1 KB - MD5: d56a7a2c0ac1fabec25f6f4bb6613372 Data Table 3. Physical and mechanical properties specimens after exposure
Table 4. The visual observation of specimen after 1 month expose.JPG Nov 13, 2018 - Evaluation of anticorrosion and antifouling paint performance after exposure under seawater Surabaya–Madura (Suramadu) bridge JPEG Image - 42.7 KB - MD5: 423d7814c959b38fdb0cefb5e41c8650 Data Table 4. The visual observation of specimen after 1 month expose
Table 5.Site-specific environmental conditions at Suramandu Bridge.JPG Nov 13, 2018 - Evaluation of anticorrosion and antifouling paint performance after exposure under seawater Surabaya–Madura (Suramadu) bridge JPEG Image - 22.9 KB - MD5: b8232b06c3829ea3b4d643cc0e27cd67 Data Table 5.Site-specific environmental conditions at Suramandu Bridge
Table 6. The weight loss of specimen in various depth of seawater.JPG Nov 13, 2018 - Evaluation of anticorrosion and antifouling paint performance after exposure under seawater Surabaya–Madura (Suramadu) bridge JPEG Image - 20.4 KB - MD5: 0c10c146ca8457843d4f34e475da490e Data Table 6. The weight loss of specimen in various depth of seawater
Pengaruh Penambahan Zirkonium Silikat (Zrsio4) Sebagai Insulator Termal Terhadap Nilai Konduktivitas Termal Liner Htpb Nov 13, 2018 Erryani, Aprilia, 2018, "Pengaruh Penambahan Zirkonium Silikat (Zrsio4) Sebagai Insulator Termal Terhadap Nilai Konduktivitas Termal Liner Htpb", https://hdl.handle.net/20.500.12690/RIN/YUXFVB, RIN Dataverse, V1 Liner adalah material elanstomer yang digunakan sebagai perekat dan insulator termal atau pelapis pelindung panas antara propelan dan tabung roket. Material liner yang cocok digunakan pada motor roket adalah komponen liner yang hampir sama dengan propelan agar propelan dapat mere...
1660-1637-1-SM.pdf Nov 13, 2018 - Pengaruh Penambahan Zirkonium Silikat (Zrsio4) Sebagai Insulator Termal Terhadap Nilai Konduktivitas Termal Liner Htpb Adobe PDF - 354.7 KB - MD5: b07e9ae0dc1f6876522b78b31cb418f5
Gambar 2.1. Struktur molekul HTPB.PNG Nov 13, 2018 - Pengaruh Penambahan Zirkonium Silikat (Zrsio4) Sebagai Insulator Termal Terhadap Nilai Konduktivitas Termal Liner Htpb PNG Image - 60.2 KB - MD5: e4b7154e260b99d0938a306a19be014a Data Gambar 2.1. Struktur molekul HTPB

Figure 1. blank specimen coating A (a), blank specimen coating B (b), bare mild steel (c).JPG

Nov 13, 2018 - Evaluation of anticorrosion and antifouling paint performance after exposure under seawater Surabaya–Madura (Suramadu) bridge

JPEG Image - 21.5 KB -

Data

Figure 1. blank specimen coating A (a), blank specimen coating B (b), bare mild steel (c)

Table 1. Typical composition of mild steel used in the study (wt.%).JPG

Nov 13, 2018 - Evaluation of anticorrosion and antifouling paint performance after exposure under seawater Surabaya–Madura (Suramadu) bridge

JPEG Image - 18.8 KB -

Data

Table 1. Typical composition of mild steel used in the study (wt.%)

Table 2. Physical and mechanical properties of the blank specimens.JPG

Nov 13, 2018 - Evaluation of anticorrosion and antifouling paint performance after exposure under seawater Surabaya–Madura (Suramadu) bridge

JPEG Image - 21.9 KB -

Data

Table 2. Physical and mechanical properties of the blank specimens

Table 3. Physical and mechanical properties specimens after exposure.JPG

Nov 13, 2018 - Evaluation of anticorrosion and antifouling paint performance after exposure under seawater Surabaya–Madura (Suramadu) bridge

JPEG Image - 29.1 KB -

Data

Table 3. Physical and mechanical properties specimens after exposure

Table 4. The visual observation of specimen after 1 month expose.JPG

Nov 13, 2018 - Evaluation of anticorrosion and antifouling paint performance after exposure under seawater Surabaya–Madura (Suramadu) bridge

JPEG Image - 42.7 KB -

Data

Table 4. The visual observation of specimen after 1 month expose

Table 5.Site-specific environmental conditions at Suramandu Bridge.JPG

Nov 13, 2018 - Evaluation of anticorrosion and antifouling paint performance after exposure under seawater Surabaya–Madura (Suramadu) bridge

JPEG Image - 22.9 KB -

Data

Table 5.Site-specific environmental conditions at Suramandu Bridge

Table 6. The weight loss of specimen in various depth of seawater.JPG

Nov 13, 2018 - Evaluation of anticorrosion and antifouling paint performance after exposure under seawater Surabaya–Madura (Suramadu) bridge

JPEG Image - 20.4 KB -

Data

Table 6. The weight loss of specimen in various depth of seawater

Pengaruh Penambahan Zirkonium Silikat (Zrsio4) Sebagai Insulator Termal Terhadap Nilai Konduktivitas Termal Liner Htpb

Nov 13, 2018

Erryani, Aprilia, 2018, "Pengaruh Penambahan Zirkonium Silikat (Zrsio4) Sebagai Insulator Termal Terhadap Nilai Konduktivitas Termal Liner Htpb", https://hdl.handle.net/20.500.12690/RIN/YUXFVB, RIN Dataverse, V1

Liner adalah material elanstomer yang digunakan sebagai perekat dan insulator termal atau pelapis pelindung panas antara propelan dan tabung roket. Material liner yang cocok digunakan pada motor roket adalah komponen liner yang hampir sama dengan propelan agar propelan dapat mere...

1660-1637-1-SM.pdf

Nov 13, 2018 - Pengaruh Penambahan Zirkonium Silikat (Zrsio4) Sebagai Insulator Termal Terhadap Nilai Konduktivitas Termal Liner Htpb

Adobe PDF - 354.7 KB -

Gambar 2.1. Struktur molekul HTPB.PNG

Nov 13, 2018 - Pengaruh Penambahan Zirkonium Silikat (Zrsio4) Sebagai Insulator Termal Terhadap Nilai Konduktivitas Termal Liner Htpb

PNG Image - 60.2 KB -

Data

Gambar 2.1. Struktur molekul HTPB

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