Sumitomo Chemical Asia | Essential & Green Materials

MMA Monomer

Methyl methacrylate (MMA) is an organic compound and a colourless liquid. Primarily used in the manufacturing process of Polymethyl Methacrylate resin (SUMIPEX® PMMA polymer), MMA is also used to produce the co-polymer – methyl methacrylate-butadiene-styrene (MBS), used as a modifier for poly vinyl chloride (PVC).

We produce MMA-m by using the C4 Direct Oxidation process.

MMA-m, besides its use in large quantities as raw material for manufacture of PMMA, has other applications in the manufacture of transparent resins, cast sheets, paints, adhesives, varnishes, coatings, the leather industry and additives.

Methyl Methacrylate Monomer Product Specification

Item	Unit	Specification
1. Color	APHA	>=5
2. Purity	%	>=99.8
3. Initial Boiling Point	˚C	>=96.0
4. Water Content	%	<=0.05
5. Specific Gravity	20/4˚C	0.942-0.946
6. Free Acid	%	<=0.005
7. Distillation Amount	%	>=95.0
8. Inhibitor ( Topanol-A )	PPM	As agreed

SUMIPEX®

SUMIPEX® is the registered trademark of Sumitomo Chemical for its PMMA resins, manufactured in Singapore with a 50,000MT annual production capacity.

SUMIPEX® PMMA, also commonly known as acrylic, is an engineering plastic widely used in the fields of automotive, housewares, optical lens, extruded sheets, display panels, the manufacturing of light guide panels for LED television, laptop, tablet, monitor, LED Lighting and many other applications. The outstanding characteristics of SUMIPEX® PMMA have also earned it the title, “Queen of Plastics”.

SUMIPEX®

It is renowned for its excellent clarity, weather resistance, and superb optical properties, and is used for a wide range of applications as a high-quality resin for products that include automobile parts, display panels (for desktop laptop monitors), extrusion sheets, optical lenses and tableware. In recent years, we have further enhanced SUMIPEX® in response to market needs by adding extra features such as greater impact, plus heat and chemical resistance to create a totally unique product line-up.

Our SUMIPEX® Range

Physical Properties

ITEM		TEST METHOD		UNIT	EXTRUSION	HEAT RESISTANT
		ISO	JIS		EX	ME	MH
OPTICAL	Refractive Index	ISO 489	JIS K7142	–	1.49	1.49	1.49
	Total Light Transmission	ISO 13468-1	JIS K7361-1	%	92	92	92
	Haze	ISO 14782	JIS K7136	%	< 0.5	< 0.5	< 0.5
THERMAL	Coefficient of Linear Expansion	ISO 11359-2	JIS K7197	1/ ˚C	7X10^-5	7X10^-5	7X10^-5
	Vicat Softening Temperature (VST)	ISO 306	JIS K7206 (B50)	˚C	104	108	109
	Deflection Temperature Under Load 1.82 Mpa (annealed)	ISO 75-2	JIS K7191 (Af method)	˚C	94	99	101
	Melt Flow Rate (MFR) 230 ˚C, 37.3N (3.8kgf)	ISO 1133	JIS K7210	g/10min.	1.5	4.2	2
MECHANICAL	Tensile Strength at break	ISO 572-2	JIS K7162	MPa	74	76	76
	Tensile Strain at break	ISO 572-2	JIS K7162	%	5	4	4
	Flexural Strength	ISO 178	JIS K7171	MPa	120	116	120
	Flexural Modulus	ISO 178	JIS K7171	MPa	3100	3100	3100
	Charpy Impact Strength (notched)	ISO 179-1	JIS K7111	KJ/m²	1.4	1.4	1.4
	Rockwell Hardness Scale M	ISO 2039-2	JIS K7202	–	100	95	100
ELECTRICAL	Surface Resistivity	IEC 60093	JIS K6911	Ω	>10¹⁶	>10¹⁶	>10¹⁶
	Volume Resistivity	IEC 60093	JIS K6911	Ω cm	>10¹⁵	>10¹⁵	>10¹⁵
	Insulation Resistance	IEC 60167	JIS K6911	Ω	>10¹⁵	>10¹⁵	>10¹⁵
	Dielectric Strength	IEC 60243-1	JIS K6911	kV/mm	20	20	20
	Dielectric Constant (1MHz)	IEC 60250	JIS K6911	–	3.1	3.1	3.1
OTHERS	Specific Gravity	ISO 1183	JIS K7112 (A method)	–	1.19	1.19	1.19
	Mold Shrinkage	ISO 294-4	ASTM D-955	%	0.2 -0.6	0.2 -0.6	0.2 -0.6
	Water Absorption	ISO 62	JIS K7209	%	0.3	0.3	0.3
	Flammability	UL 94		–	HB	HB	HB

* The above data are typical laboratory values and are intended to serve as guides only.

Recommended Injection Moulding Conditions

		MH / ME
PRE-DRYING CONDITIONS	Temp. ˚C	80 – 90
PRE-DRYING CONDITIONS	Time/Hr	4 – 6
BARREL TEMP.	Front ˚C	240 – 260
	Middle ˚C	230 – 260
	Back ˚C	220
MOULD TEMP.	˚C	60 – 85
INJECTION PRESSURE	MPa	140 – 160
HOLD PRESSURE	MPa	20 – 80
BACK PRESSURE	Gauge MPa	0.9 – 1.4
SCREW SPEED	rpm	40 – 60
COOLING TIME	sec.	20 – 60

Recommended Extrusion Moulding Conditions

		EX / MH
SCREW L/D		30 – 35
CYLINDER TEMP. ˚C	Hopper Side	200 – 210
	Center Side	230 – 240
	Die Side	240 – 245
DIE TEMP. ˚C		235 – 245

Recommended Annealing Conditions

	EX / MH / ME
Temp. ˚C	75 – 85
Time/Hr	4

Application

Widely used in the automotive industry for rear tail lamps and speedometer covers. Also used for optical (sunglasses and reading glasses) lens, extrusion sheets for the manufacturing of signages and displays, sound barriers, construction applications and light guide panels for general LED lightings.

Physical Properties

ITEM		TEST METHOD		UNIT	OPTICAL
		ISO	JIS		EXN	MGSS	MH5
OPTICAL	Refractive Index	ISO 489	JIS K7142	–	1.49	1.49	1.49
	Total Light Transmission	ISO 13468-1	JIS K7361-1	%	92	92	92
	Haze	ISO 14782	JIS K7136	%	< 0.5	< 0.5	<0.5
THERMAL	Coefficient of Linear Expansion	ISO 11359-2	JIS K7197	1/ ˚C	7X10^-5	7X10^-5	7X10^-5
	Vicat Softening Temperature (VST)	ISO 306	JIS K7206 (B50)	˚C	104	106	110
	Deflection Temperature Under Load 1.82 Mpa (annealed)	ISO 75-2	JIS K7191 (Af method)	˚C	99	96	101
	Melt Flow Rate (MFR) 230˚C, 37.3N (3.8kgf)	ISO 1133	JIS K7210	g/10min.	1.5	11	6
MECHANICAL	Tensile Strength at break	ISO 527-2	JIS K7162	Mpa	74	63	72
	Tensile Strain at break	ISO 527-2	JIS K7162	%	5	2	3
	Flexural Strength	ISO 178	JIS K7171	Mpa	120	94	115
	Flexural Modulus	ISO 178	JIS K7171	Mpa	3100	3100	3100
	Charpy Impact Strength (notched)	ISO 179-1	JIS K7111	KJ/m²	1.4	1.3	1.3
	Rockwell Hardness Scale M	ISO 2039-2	JIS K7202	–	100	95	100
ELECTRICAL	Surface Resistivity	IEC 60093	JIS K6911	Ω	>10¹⁶	>10¹⁶	>10¹⁶
	Volume Resistivity	IEC 60093	JIS K6911	Ω cm	>10¹⁵	>10¹⁵	>10¹⁵
	Insulation Resistance	IEC 60167	JIS K6911	Ω	>10¹⁵	>10¹⁵	>10¹⁵
	Dielectric Strength	IEC 60243-1	JIS K6911	kV/mm	20	20	20
	Dielectric Constant (1MHz)	IEC 60250	JIS K6911	–	3.1	3.1	3.1
OTHER	Specific Gravity	ISO 1183	JIS K7112 (A method)	–	1.19	1.19	1.19
	Mold Shrinkage	ISO 294-4	ASTM D-955	%	0.2 -0.6	0.2 -0.6	0.2 - 0.6
	Water Absorption	ISO 62	JIS K7209	%	0.3	0.3	0.3
	Flammability	UL 94		–	HB	HB	HB

*The above data are typically laboratory values and are intended to serve as guides only.

Recommended Injection Moulding Conditions

		MGSS	MH5
PRE-DRYING CONDITIONS	Temp. ˚C	80 – 85	80 – 90
BARREL TEMP.	Time/Hr	4 – 6	4 – 6
	Front ˚C	220 – 235	240 – 260
	Middle ˚C	215 – 225	230 – 260
	Back ˚C	210	220
MOULD TEMP.	˚C	60 – 85	60 – 85
INJECTION PRESSURE	MPa	140 – 160	140 – 160
HOLD PRESSURE	MPa	20 – 80	20 – 80
BACK PRESSURE	Gauge MPa	0.9 – 1.4	0.9 – 1.4
SCREW SPEED	Rpm	40 – 60	40 – 60
COOLING TIME	Sec.	20 – 60	20 – 60

Recommended Extrusion Moulding Conditions

		EXN
SCREW L/D		30 – 35
CYLINDER TEMP. ˚C	Hopper Side	200 – 210
	Center Side	230 – 240
	Die Side	240 – 245
DIE TEMP. ˚C		235 – 245

Recommended Annealing Conditions

	EXN / MGSS / MH5
Temp. ˚C	75 – 85
Time/Hr	4

Application

EXN and MGSS are most commonly used material in the production of light guide panels for electronic displays such as LED televisions, monitors, notebooks and tablets. MH5 is widely used in the production of automotive PES lens and LED lens cap for TV.

Introduction and Application Of EPM Grade

A grade with unique characteristics. Though EPM grade is a low flow PMMA, but it has a higher spiral flow length, meaning that it is ideal for both injection and extrusion usage. To add on, this grade has stronger chemical resistance in comparison to typical PMMA grades, hence, it is use widely in the automotive industry for the manufacturing of rear tail lamps and for applications which requires higher chemical resistance, such as cosmetic bottles and containers.

Comparison of Spiral Flow Length

Comparison of Chemical Resistance

Physical Properties

ITEM		TEST METHOD		UNIT	CHEMICAL RESISTANCE
		ISO	JIS		EPM
OPTICAL	Refractive Index	ISO 489	JIS K7142	–	1.49
	Total Light Transmission	ISO 13468-1	JIS K7361-1	%	92
	Haze	ISO 14782	JIS K7136	%	< 0.5
THERMAL	Coefficient of Linear Expansion	ISO 11359-2	JIS K7197	1/ ˚C	7X10^-5
	Vicat Softening Temperature (VST)	ISO 306	JIS K7206	˚C	111
			(B50)
	Deflection Temperature Under Load 1.82 Mpa (annealed)	ISO 75-2	JIS K7191 (Af method)	˚C	102
	Melt Flow Rate (MFR) 230 ˚C, 37.3N (3.8kgf)	ISO 1133	JIS K7210	g/10min.	2.4
MECHANICAL	Tensile Strength at break	ISO 572-2	JIS K7162	MPa	73
	Tensile Strain at break	ISO 572-2	JIS K7162	%	3
	Flexural Strength	ISO 178	JIS K7171	MPa	120
	Flexural Modulus	ISO 178	JIS K7171	MPa	3100
	Charpy Impact Strength (notched)	ISO 179-1	JIS K7111	KJ/m²	1.4
	Rockwell Hardness Scale M	ISO 2039-2	JIS K7202	–	100
ELECTRICAL	Surface Resistivity	IEC 60093	JIS K6911	Ω	>10¹⁶
	Volume Resistivity	IEC 60093	JIS K6911	Ω cm	>10¹⁵
	Insulation Resistance	IEC 60167	JIS K6911	Ω	>10¹⁵
	Dielectric Strength	IEC 60243-1	JIS K6911	kV/mm	20
	Dielectric Constant (1MHz)	IEC 60250	JIS K6911	–	3.1
OTHERS	Specific Gravity	ISO 1183	JIS K7112 (A method)	–	1.19
	Mold Shrinkage	ISO 294-4	ASTM D-955	%	0.2 -0.6
	Water Absorption	ISO 62	JIS K7209	%	0.3
	Flammability	UL 94		–	HB

* The above data are typical laboratory values and are intended to serve as guides only.

Recommended Injection Moulding Conditions

		EPM
PRE-DRYING CONDITIONS	Temp. ˚C	80 – 90
PRE-DRYING CONDITIONS	Time/Hr	4 – 6
BARREL TEMP.	Front ˚C	240 – 260
	Middle ˚C	230 – 245
	Back ˚C	220
MOULD TEMP.	˚C	60 – 85
INJECTION PRESSURE	MPa	140 – 160
HOLD PRESSURE	MPa	20 – 80
BACK PRESSURE	Gauge MPa	0.9 – 1.4
SCREW SPEED	Rpm	40 – 60
COOLING TIME	Sec.	20 – 60

Recommended Annealing Conditions

	EPM
Temp. ˚C	75 – 85
Time/Hr	4

Physical Properties

ITEM		TEST METHOD		UNIT	HIGH FLOW
		ISO	JIS		LG2S
OPTICAL	Refractive Index	ISO 489	JIS K7142	–	1.49
	Total Light Transmission	ISO 13468-1	JIS K7361-1	%	92
	Haze	ISO 14782	JIS K7136	%	< 0.5
THERMAL	Coefficient of Linear Expansion	ISO 11359-2	JIS K7197	1/ ˚C	7X10^-5
	Vicat Softening Temperature (VST)	ISO 306	JIS K7206 (B50)	˚C	95
	Deflection Temperature Under Load 1.82 Mpa (annealed)	ISO 75-2	JIS K7191 (Af method)	˚C	87
	Melt Flow Rate (MFR) 230 ˚C, 37.3N (3.8kgf)	ISO 1133	JIS K7210	g/10min.	15
MECHANICAL	Tensile Strength at break	ISO 527-2	JIS K7162	Mpa	68
	Tensile Strain at break	ISO 527-2	JIS K7162	%	2
	Flexural Strength	ISO 178	JIS K7171	Mpa	110
	Flexural Modulus	ISO 178	JIS K7171	Mpa	3000
	Charpy Impact Strength (notched)	ISO 179-1	JIS K7111	KJ/m²	1.4
	Rockwell Hardness Scale M	ISO 2039-2	JIS K7202	–	94
ELECTRICAL	Surface Resistivity	IEC 60093	JIS K6911	Ω	>10¹⁶
	Volume Resistivity	IEC 60093	JIS K6911	Ω cm	>10¹⁵
	Insulation Resistance	IEC 60167	JIS K6911	Ω	>10¹⁵
	Dielectric Strength	IEC 60243-1	JIS K6911	kV/mm	20
	Dielectric Constant (1MHz)	IEC 60250	JIS K6911	–	3.1
OTHERS	Specific Gravity	ISO 1183	JIS K7112 (A method)	–	1.19
	Mold Shrinkage	ISO 294-4	ASTM D-955	%	0.2 -0.6
	Water Absorption	ISO 62	JIS K7209	%	0.3
	Flammability	UL 94		–	HB

*The above data are typically laboratory values and are intended to serve as guides only.

Recommended Injection Moulding Conditions

		LG2S
PRE-DRYING CONDITIONS	Temp. ˚C	70 – 80
PRE-DRYING CONDITIONS	Time/Hr	4 – 6
BARREL TEMP.	Front ˚C	225 – 245
	Middle ˚C	220 – 240
	Back ˚C	210 – 220
MOULD TEMP.	˚C	60 – 85
INJECTION PRESSURE	MPa	140 – 160
HOLD PRESSURE	MPa	20 – 100
BACK PRESSURE	Gauge MPa	1.1 – 1.4
SCREW SPEED	rpm	30 – 70
COOLING TIME	sec.	20 – 60

Recommended Annealing Conditions

	LG2S
Temp. ˚C	60 – 80
Time/Hr	4

Application

Used in a wide range of products such as housewares, cosmetic bottles, lens covers for electrical appliances, ornament products and etc.

Physical Properties

ITEM		TEST METHOD		UNIT	GENERAL PURPOSE (EXTRUSION & INJECTION)
		ISO	JIS		HT084S	HT082S	HT0835S	HT084T
OPTICAL	Refractive Index	ISO 489	JIS K7142	–	1.49	1.49	1.49	1.49
	Total Light Transmission	ISO 13468-1	JIS K7361-1	%	90	90	90	91
	Haze	ISO 14782	JIS K7136	%	1.5	1.5	1.5	< 1.5
THERMAL	Vicat Softening Temperature (VST)	ISO 306	JIS K7206 (B50)	˚C	95	103	96	95
	Deflection TemperatureUnder Load 1.82 MPa (annealed)				87	93	88	87
	Melt Flow Rate (MFR) 230 ˚C, 37.3N (3.8kgf)	ISO 1133	JIS K7210	g/10min.	2	2	2.8	2
MECHANICAL	Tensile Strength at break	ISO 527-2	JIS K7162	MPa	38	56	42	38
	Tensile Strain at break	ISO 527-2	JIS K7162	%	60	38	63	60
	Flexural Modulus	ISO 178	JIS K7171	MPa	1700	2500	1800	1700
	Flexural Strength	ISO 178	JIS K7171	MPa	55	90	65	55
	Charpy Impact Strength (notched)	ISO 179-1	JIS K7111	KJ/m²	7.0	3.8	5.5	6.5
ELECTRICAL	Surface Resistivity	IEC 60093	JIS K6911	Ω	>10¹⁶	>10¹⁶	>10¹⁶	>10¹⁶
	Volume Resistivity	IEC 60093	JIS K6911	Ω cm	>10¹⁵	>10¹⁵	>10¹⁵	>10¹⁵
	Insulation Resistance	IEC 60167	JIS K6911	Ω	>10¹⁵	>10¹⁵	>10¹⁵	>10¹⁵
	Dielectric Strength	IEC 60243-1	JIS K6911	kV/mm	20	20	20	20
	Dielectric Constant (1MHz)	IEC 60250	JIS K6911	–	3.1	3.1	3.1	3.1
OTHER	Specific Gravity	ISO 1183	JIS K7112 (A method)	–	1.16	1.17	1.16	1.16
	Mold Shrinkage	ISO 294-4	JIS K7152-4	%	0.4 – 0.7	0.4 – 0.7	0.4-0.7	0.4-0.7
	Water Absorption	ISO 62	JIS K7209	%	0.4	0.4	0.4	0.4

* The above data are typical laboratory values and are intended to serve as guides only.

* If you hope to use these grades to food and/or medical matter, please consult with us.

Application

High Impact grades are designed to be used for application where both impact and weathering durability are required, like construction partition, edge band, signboard, etc.

Physical Properties

Item		Test Method	Unit	F10
Optical (2mm thickness)	Total Light Transmittance	ISO 13468-1	%	91
	Haze	ISO 14782	%	95
	Diffusion Factor	DIN 5036-3	%	19
	Half Angle	DIN 5036-3	%	14
THERMAL	Vicat Softening Temperature (VST)	ISO 306	˚C	108
	Deflection Temperature Under Load 1.82 MPa (annealed)	ISO 75-2	˚C	99
	Melt Flow Rate (MFR) 230 oC, 37.3N (3.8kgf)	ISO 1133	g/10min	3.8
MECHANICAL	Tensile Strength at break	ISO 527-2	MPa	66
	Tensile Strain at break	ISO 527-2	%	3
	Flexural Strength	ISO 178	MPa	110
	Flexural Modulus	ISO 178	MPa	3000
	Charpy Impact Strength (notched)	ISO 179-1	kJ/m²	1.4
	Rockwell Hardness Scale M	ISO 2039-2	-	100
ELECTRICAL	Surface Resistivity	IEC 60093	Ω	>10¹⁶
	Volume Resistivity	IEC 60093	Ω cm	>10¹⁵
	Insulation Resistance	IEC 60167	Ω	>10¹⁵
	Dielectric Strength	IEC 60243-1	kV/mm	20
	Dielectric Constant (1MHz)	IEC 60250	-	3.1

* The above data are typical laboratory values and are intended to serve as guides only.

Recommended Injection Moulding Conditions

		F10
PRE-DRYING CONDITIONS	Temp/ ˚C	80 - 90
PRE-DRYING CONDITIONS	Time/ Hr	4 - 6
BARREL TEMP	Front/ ˚C	240 - 260
	Middle/ ˚C	230 - 260
	Back/ ˚C	220
MOULD TEMP	˚C	60 - 85
INJECTION PRESSURE	MPa	140 - 160
HOLD PRESSURE	MPa	20 - 80
BACK PRESSURE	Gauge MPa	0.9 - 1.4
SCREW SPEED	rpm	40 - 60
COOLING TIME	sec	20 - 60

Recommended Annealing Conditions

	F10
Temp. ˚C	75-85
Time/Hr	4

Application

Diffusion F10 is designed to be used for injection application where light diffusion effect is required, e.g. inner diffusive lens cover for Automotive industry, injection component for Lighting industry and a variety of other sectors, etc.

Physical Properties

Item		Test Method	Unit	SM2
Item		Test Method	Unit
Optical (3mm thickness)	Total Light Transmittance	ISO 13468-1	%	87
	Haze	ISO 14782	%	40
	Gloss (Co-extruded with PMMA)	ISO 2813 (60°)	GU	~10
THERMAL	Vicat Softening Temperature (VST)	ISO 306	˚C	100
THERMAL	Melt Flow Rate (MFR) 230 oC, 37.3N (3.8kgf)	ISO 1133	g/10min	1.8
MECHANICAL	Charpy Impact Strength (notched)	ISO 179-1	kJ/m²	1.2

Recommended Extrusion Moulding Conditions

		SM2

SCREW L/D	-	30-35
BARREL TEMP	Front/ ˚C	200-210
	Middle/ ˚C	230-240
	Back/ ˚C	235-245
DIE TEMPERATURE	˚C	230-240

Application

Matt SM2 is designed to be used in extrusion or co-extrusion application where attractive matt aesthetics effect is required, e.g. panel for furniture and kitchenware sector, bonnet protector / fender flare for Automotive industry, etc.

Additional Information

Outstanding Properties of SUMIPEX®

Unparalleled Transparency and Lustre
Excellent Weather Resistance
Unmatched Surface Hardness
Excellent Electrical Resistance
Superior Mechanical Property
Harmless to Humans
Environmentally-Friendly, Easy to Recycle

Comparison of SUMIPEX® with Other Transparent Resins

SUITABLE FOR SUMIPEX®	UNSUITABLE FOR SUMIPEX®
Aliphatic Hydrocarbon	Chlorinated Aliphatic Hydrocarbon
Oils and Fats	Aromatic Hydrocarbon
Inorganic Salt Solution	Alicyclic Hydrocarbon
Gas	Ketone
Dilute Acid	Alcohol
Alkali	Ether
Dilute Alcohol	Ester
Antifreeze Liquid	Methylene Chloride, Chloroform, Carbon Tetrachloride
Paraffin, Hexane	Benzene, Toulene, Xylene
Turpentine Oil, Olive Oil	Cyclohexane
Salt Water	Acetone, MEK
Oxygen, Nitrogen, Carbon Dioxide	Methyl Alcohol
Dilute Hydrochloric Acid, 30% Sulfuric Acid	Diethyl Ether
Sodium Carbonate, Sodium Hydroxide	Plasticizer (DOP, DBP, ETC), Ethyl Acetate
10% Methyl Alcohol
Ethylene Glycol

* This list may not be exhaustible and is intended to serve as a general guideline only.

The below standards/certifications have been tested on specific SUMIPEX® grades only.

UL Standard
RoHs (Restriction of Use of Hazardous Substances) [Directive 2002/95/EC]
With reference to U.S. 21 CFR Food and Drug Administration (Part 177.1010 Clause B)
Automotive Safety Standard (FMVSS) [USA]
AMECA [MH and ME grade for clear, red, yellow, grey and brown]

* Please refer to AMECA list for more details

Ul: Underwriters laboratories
FMVSS: Federal Motor Vehicle Safety Standard
SAE: Society of Automotive Engineers, Inc.

25Kg Paper Bag & Resin Bag

750Kg Flexicon Bag

19,000Kg Seabulk Bag

Octabin (650kg/750kg)

To achieve optimal quality in moulded products, please take note of the following.

Dust Prevention

Handle SUMIPEX® in a clean/dust-free environment.
When opening bag, take special care to prevent foreign matters from entering the bag.

Contamination Prevention

All equipment and parts (E.g. hopper, dryer, barrel, screw, nozzle, etc.) should be thoroughly cleaned before coming into contact with SUMIPEX®.

Moisture Prevention

SUMIPEX® should be stored in a dry environment.

SUMIPEX® is a thermoplastic, and is flammable and soluble in organic solvents. Before using SUMIPEX®, please refer to the Safety Data Sheet (SDS) separately prepared by us.

The following information are general precautions and guidelines in the handling and storage of SUMIPEX®.

Health and Safety
During the operations of drying and processing of SUMIPEX®, local exhaust ventilation and personal protective equipment (eye goggle, gloves, respirator etc.) are necessary.

SUMIPEX® releases gases due to drying, melting and thermal decomposition. Avoid inhaling and contact with eyes and skin.
Do not touch hot resin directly.
If feeling unwell due to inhalation, rest in a well-ventilated place and if necessary, consult a doctor.

Flammability
Do not use/place SUMIPEX® near flames and other sources of ignition.

SUMIPEX® is flammable. Should it catch fire, toxic gases containing Carbon Monoxide can be generated due to incomplete combustion.
In case of fire, use water, carbon dioxide or foam/powder extinguishing media to put out the fire.

Disposal
For disposal of SUMIPEX®, engage an authorised contractor or consult the relevant local government agencies. Disposal should be conducted in accordance with state and local regulations.

Storage

SUMIPEX® should be stored in accordance with state and local regulations.
In case of spillage, remove pellets immediately to prevent potential slipping hazard.
SUMIPEX® should be kept away from direct sunlight, water and moisture and bestored at ambient temperature.

Others
All technical information and data in this brochure are believed to be accurate and reliable. However, we do not guarantee results, freedom from patent infringement, or suitability of our products for any resultant application.

* This information is prepared based on the materials, information and data currently available to us. Revisions will be made when new knowledge or information is obtained.

* All data presented on our diagrams, tables and charts are typical laboratory values and are intended to serve as guides only.

We have now entered an era in which greater importance is being placed on environmental issues. In addition to its benign physical properties as a methacrylate resin, SUMIPEX® contributes to conservation of resources through its prolonged and incomparable weather resistance, serving its many applications for long periods of time. Moreover, SUMIPEX® at high yields can be reduced to its monomer form through thermal decomposition, then chemically recycled and utilised as a raw material for new resin production.

Furthermore, no particularly harmful gases, such as dioxins, are produced when waste resins are incinerated, as the resins do not contain halogens. Under normal combustion conditions, SUMIPEX® breaks down completely into water and carbon dioxide; adding only minimum burden on the environment. People have been using methacrylate resins ever since the beginning of their commercial production in the 1940s. This versatile plastic is still being used in myriad applications, even into the 21st century – the century of the environment – due to its outstanding characteristics.

* All data presented on our diagrams, tables and charts are typical laboratory values and are intended to serve as guides only.

Homeware

SUMIPEX® PMMA is used in a variety of applications. It largely finds its use in various homeware applications including furniture and kitchen accessory products. The aesthetic advantage and scratch resistant properties favour SUMIPEX® PMMA’s extensive usage.

SUMIPEX® PMMA allows for customisation through various shapes, sizes, and colours. Furniture made from SUMIPEX® PMMA has the dual advantage of durability and aesthetic design. The inherent UV-stability combined with dimensional stability allows such furniture to be weather resistant.

Naturally, SUMIPEX® PMMA finds itself very useful in various applications where lasting and aesthetic appearances are important, including laminates and shower screens. Small items like photo frames, storage racks, tablemats, bowls, servers, chesspieces etc. are all extra-durable when made of SUMIPEX® PMMA.

Automotive

Various chemical and thermal processes can provide a myriad of structural and functional properties to SUMIPEX® PMMA. With these newly acquired properties, the SUMIPEX® PMMA resin is used as an integral part of various automotive applications.

SUMIPEX® PMMA is used in automotive tail lamps due to its unmatched transparency and weathering properties, ensuring longevity of the product parts.

SUMIPEX® PMMA is highly suitable for multiple colouring options from transparent to deep colour. Properties like surface hardness and UV resistance result in SUMIPEX® PMMA being used to create interior and exterior panels, trim and other moulded parts.

Optical clarity, light transmission abilities, and accuracy in colour are favourable properties that enable the use of SUMIPEX® PMMA in external, rear, and indicator light covers.

SUMIPEX® PMMA is also used in number plates owing to its durability and high visibility. The properties of SUMIPEX® PMMA can be altered as the application demands. Properties like impact resistance, chemical resistance, light diffusion, UV filtering and optical effects can be easily modified by subjecting the base ingredient to various physical and chemical processes.

Electronic Displays

SUMIPEX® PMMA, with its unmatched optical properties, is the obvious choice for various applications in the electronics domain. With the fast advancements in the field of electronics, display units need to be robust, clear and must have excellent optical clarity.

Properties like durability, transmission of light, scratch resistance, and surface hardness are favourable for SUMIPEX® PMMA used in the electronics industry for display units.

Owing to its desirable properties, this acrylic glass is used in the display units of top electronic brands. Production of Light Guide Panel (LGP) for electronic displays like LED televisions, notebooks and tablets, electrical equipment display and infrared transmitter/receiver windows are also made from SUMIPEX® PMMA. The surface hardness and scratch resistance properties lead to SUMIPEX® PMMA being used for various appliance parts and control panel as well.

Cosmetic Packaging

SUMIPEX® PMMA is lightweight, stable, and fully recyclable and finds its use in cosmetic packaging. It doesn’t contain toxic materials like heavy metals that are harmful and hazardous to the environment, making recycling an easy and convenient process.

The cosmetic industry has been using SUMIPEX® PMMA in the form of injection moulding to create durable and creative packaging for their products. Whether it is coloured, opaque, translucent, or an elaborate design, SUMIPEX® PMMA can be customized to fit any requirement. We have taken it further to create a high chemical resistant grade, SUMIPEX® EP grade to cater to this industry.

Lighting

Modern day lighting has taken leaps and bounds from where the field stood just a few years ago. Elegant, chic, and energy-efficient lighting products for display are the new norm and SUMIPEX® PMMA effortlessly allows for producing aesthetic lighting equipment.

Superior light transmitting qualities, transparency and heat resistance are some reasons behind SUMIPEX® PMMA being extremely popular and sought after for optical applications.

The brilliance and transparent texture of SUMIPEX® PMMA result in it being predominantly used for lighting purposes. A myriad choice of colours and textures to choose from, SUMIPEX® offers a kaleidoscopic plethora of hues and effects. The result – a well-lit, aesthetically pleasing home or office space.

SUMIPEX® PMMA is also extensively used in the manufacturing of LED light guide panels and lens caps as it helps to maximise their light emitting potential. Modern homes today are embellished by various lighting fixtures as well as by skylights. Lower energy costs, aesthetic appearance and reduced environmental impact result in SUMIPEX® PMMA being preferred for lighting purposes.

Optical Lenses

SUMIPEX® PMMA is well known for its transparency and clarity. It is widely used in optical lenses industry such as sunglasses lenses and reading glasses. UV stability and ease of colourability make it a prime choice for this usage.

General FAQ

Methyl Methacrylate (or more commonly referred to as MMA monomer) is colourless liquid that is the basis material for Polymethyl Methacrylate (SUMIPEX® PMMA).

Polymethyl Methacrylate (SUMIPEX® PMMA polymer) is a kind of thermoplastic resin, which is flammable and also soluble in an organic solvent.

*Note: Data obtained from various available sources and to be used as reference guide only.

The SUMIPEX® PMMA polymer finds its use across various industries and applications owing to its favourable properties like aesthetics, scratch resistance and thermal resistance. SUMIPEX® PMMA is extensively used in these industries:

Yes, it is. In fact it is one of the few plastic materials that can be reversed into its original monomer liquid form through a cracking process. Once reversed into the original liquid form, it can be reused for other applications.

*Note: Data obtained fr om various available sources and to be used as reference guide only.

SUMIPEX® PMMA has excellent resistance to abrasion, aging and weathering; hence it doesn’t undergo much colour change even after years of outdoor exposure.

*Note: Data obtained from various available sources and to be used as reference guide only.

Order related FAQ

Please submit your request through pmmasales@sumitomo-chem.com.sg with your details such as location, product, quantity requirements and contact information. We will shortly follow up with you.

We have authorised distributors in multiple regions with ready stock-points for general purpose grades which can typically be delivered within a few days after receiving orders. Please submit your request through pmmasales@sumitomo-chem.com.sg and we shall be in touch with you for further discussions.

If you wish to obtain a copy of our printed product catalog, please email to pmmasales@sumitomo-chem.com.sg and we will be in touch with you shortly.

We are always glad to provide free samples to interested customers. Please submit your request through pmmasales@sumitomo-chem.com.sg with information on your company and purpose of usage. We shall respond to you accordingly.

Product FAQ

SUMIPEX® PMMA is manufactured by free radial vinyl polymerisation process using MMA monomer.

SUMIPEX® PMMA (density= 1.19kg/m3) is a much lighter option as compared to glass (density=2.5kg/m3).

The optical property of SUMIPEX® PMMA (Total light transmittance=92.6%) is also higher as compared to glass (Total light Transmittance=90.2%).

SUMIPEX® is also known as acrylic glass, a good alternative to glass as it is safer option due to its shatter proof characteristics.

*Note: Data obtained from various available sources and to be used as reference guide only.

SUMIPEX® molding materials are available in a variety of different grades. Each grade possesses the special characteristics unique to acrylic polymers, thus allowing usage in a wide range of applications. SUMIPEX® can be chosen from numerous selections in accordance with the particular desired usage.

SUMIPEX® is made to have more durability properties compared to other transparent plastics.

Comparison of SUMIPEX® PMMA vs other transparent plastics:

	PMMA	PVC	PS	SAN	MS
Transparency
Heat Resistance		X
Rigidity
Impact Resistance	X		XX	X	X
Scratching Resistance
Chemical Resistance
Weather Resistance		X

SUMIPEX® PMMA= Poly(methylmethacrylate), PC= Polycarbonate, PVC= Poly (Vinyl Chloride), PS= Polystyrene, SAN= Styrene Acrylonitrile, MS= Methylmethacrylate Styrene, PETG= Poly (ethylene terephthalate glycol modified)

	SUMIPEXTM PMMA	PC	PS	SAN	MS
Transparency	92%	87 – 79%	88%	86.5 – 91%	80 – 91.4%
Haze	~0.2%	1 – 1.1%	2%	0.45 – 0.8%	0.27 – 0.3%
VST	108° C	~150° C	90° C	100 – 115° C	103° C
HDT, 1.8 Mpa	101° C	130 – 140° C	70 – 90° C	90 – 100° C	80 – 95° C
Ultimate Tensile Strength	76 Mpa	55 – 77 Mpa	35 – 60 Mpa	65 – 85 Mpa	30 – 60.7 Mpa
Elongation at Break	4%	100 – 150%	1 – 4%	2 – 5%	2.1 – 5.2%
Flexural strength	120 Mpa	~90 – 100 Mpa	~70 Mpa	~115 Mpa	90 Mpa
Flexural modulus	3.1 Gpa	2.1 – 2.5 Gpa	2.5 – 3.5 Gpa	3.5 – 4.2 Gpa	2 – 3.2 Gpa

*Note: Data obtained from various available sources and to be used as reference guide only.

The following chart illustrates the value of pencil hardness. The higher the pencil hardness value means more scratch resistance.

Illustration Chart

Material	Pencil Hardness
PMMA	H – 2H
PS	B – HB
MS	HB – H
PC	2B – 4B
PETG	3B – 5B

As demonstrated on the table above, SUMIPEX® PMMA stands at the mid-range in hardness profile and about 2 to 7 points higher in value as compared to other transparent plastics.

*Note: Data obtained from various available sources and to be used as reference guide only.

SUMIPEX® PMMA exhibits the lowest yellowing among all transparent plastics after years of outdoor weathering. These unique properties of SUMIPEX® PMMA make it a valued and unmatched material for outdoor applications.

*Note: Data obtained from various available sources and to be used as reference guide only.

MMA/PMMA

MMA Monomer

Methyl Methacrylate Monomer Product Specification

SUMIPEX®

SUMIPEX®

Our SUMIPEX® Range

Physical Properties

Recommended Injection Moulding Conditions

Recommended Extrusion Moulding Conditions

Recommended Annealing Conditions

Application

Physical Properties

Recommended Injection Moulding Conditions

Recommended Extrusion Moulding Conditions

Recommended Annealing Conditions

Application

Introduction and Application Of EPM Grade

Comparison of Spiral Flow Length

Comparison of Chemical Resistance

Physical Properties

Recommended Injection Moulding Conditions

Recommended Annealing Conditions

Physical Properties

Recommended Injection Moulding Conditions

Recommended Annealing Conditions

Application

Physical Properties

Application

Physical Properties

Recommended Injection Moulding Conditions

Recommended Annealing Conditions

Application

Physical Properties

Recommended Extrusion Moulding Conditions

Application

Additional Information

Outstanding Properties of SUMIPEX®

Comparison of SUMIPEX® with Other Transparent Resins

Homeware

Automotive

Electronic Displays

Cosmetic Packaging

Lighting

Optical Lenses

General FAQ

Order related FAQ

Product FAQ