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High Alumina Insulating Firebricks

Features	For high temperature applications, superior resistance to reductive gases
Kinds	ISO-COR, and ISO-COR H
Applications	1. High temperature ceramics baking furnaces 2. Powdered metallurgy sintering furnaces 3. Brazing furnaces 4. Reverberating furnaces for aluminum electrolysis 5. Hydrogenous atmosphere furnaces

Standard:

Item	ISO-COR
Max. Temperature	1800
Bulk Density	1.40≧
Cold Crushing Strength (MPa)	6.9≦

Note: Above standard is subject to change without notice.

Test Results on Samples:

Reheat Shrinkage (%) at 1700X8hrs		-0.15
Bulk Density		1.35
Thermal Conductivity at 350±10℃		0.67
Cold Crushing Strength (MPa)		11.0
Modulus of Rupture (MPa)		3.8
Chemical Composition	Al2O3	78
	SiO2	20
	Fe2O3	0.5

Note: Above test results are average results of tests conducted under standard procedures and

subject to variation. Results should not be used for specification purposes.

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BAL-99 Insulating Firebricks

Features	High alumina content, excellent strength, super stability at high temperatures
Kinds	BAL-99, BAL-99M (increased strength), and BAL-LS (low soda)
Applications	1. Bright Annealing Furnaces (for stainless steel, non-ferrous alloy metal) 2. Metal Ceramic Sintering Furnaces 3. Brazing Furnaces 4. Semiconductor Firing Furnaces 5. Hydrogen Atmosphere Furnaces

Standard:

Item	BAL-99	BAL-99M	BAL-LS
Max. Temperature	1800	1800	1800
Bulk Density	1.60≧	1.60≧	1.60≧
Cold Crushing Strength (MPa)	9.8≦	19.6≦	9.8≦
Content of Al2O3 (%)	99.0≦	99.0≦	99.0≦

Note: Above standard is subject to change without notice.

Test Results of Samples

Reheat Shrinkage (%) at 1700X8hrs		0.27	0.18	0.03
Bulk Density		1.58	1.59	1.59
Thermal Conductivity at 350±10℃		1.22	1.45	1.45
Cold Crushing Strength (MPa)		12.0	27.0	12.0
Modulus of Rupture (MPa)		5.5	9.6	4.4
Chemical Composition	Al2O3	99.2	99.3	99.3
	SiO2	0.4	0.4	0.4
	Fe2O3	0.1	0.1	0.1

Note: Above test results are average results of tests conducted under standard procedures and

subject to variation. Results should not be used for specification purposes.

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ISOLITE LHB Insulating Firebricks

Features	By Isolite’s technology, increased strength, high wear-resistance
Applications	1. Coking Ovens 2. Zinc Distillation Furnaces 3. Tunnel Kiln for Firing Ceramics etc.

Standard:

Item	LHB
Max. Temperature (℃)	1450
Bulk Density	1.45≧
Thermal Conductivity at 350±10℃	0.58≧
Cold Crushing Strength (MPa)	9.8≦

Note: Above standard is subject to change without notice

Test Results of Samples:

Reheat Shrinkage (%) at 1700X8hrs		0.34
Bulk Density		1.20
Thermal Conductivity at 350±10℃		0.55
Cold Crushing Strength (MPa)		11.0
Chemical Composition	Al2O3	67
	SiO2	31
	Fe2O3	0.6

Note: Above test results are average results of tests conducted under standard procedures and

subject to variation. Results should not be used for specification purposes.

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ISOLITE LAP-165 Insulating Firebricks

Features	High alumina content but low bulk density, very stable at high temperatures
Applications	1. Hot-air Ovens 2. Ceramics Firing Ovens 3. Naphtha Cracking Furnaces

Standard:

Item	LAP-165
Max. Temperature (℃)	1650
Bulk Density	0.90≧
Thermal Conductivity at 350±10℃	0.55
Cold Crushing Strength (MPa)	2.9≦
Content of Fe2O3 (%)	1.0≧

Note: Above standard is subject to change without notice.

Test Results of Samples:

Reheat Shrinkage (%) at 1700X8hrs		0.18
Bulk Density		0.80
Thermal Conductivity at 350±10℃		0.35
Cold Crushing Strength (MPa)		4.0
Modulus of Rupture (MPa)		2.0
Chemical Composition	Al2O3	73
	SiO2	25
	Fe2O3	0.5

Note: Above test results are average results of tests conducted under standard procedures and

subject to variation. Results should not be used for specification purposes

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