About us

Vision/LGM Vision

To be a leading organisation in all areas of the rubber industry for the benefit of society.

Mission/LGM Mission

To enhance the competitiveness and viability of the Malaysian rubber industries in the global environment through focused research and development, effective transfer of technology and quality support services.

Current projects

• Health-Related Issues (Prevalence of NRL Hypersensitivity among Malaysian Healthcare Workers)
• Feasibility of FitKit^® as Standard Requirement for NRL Medical Devices
• Round Robin Study on Guayule Proteins
• Toxicity
• Non allergenic latex
• Product Diversification and Process Improvement:
  1. Latex products – Gloves, Foam, Catheter and Condom & Latex thread
  2. Latex Condom – Variability of thickness measurement of NRL condoms using different test methods
  3. Latex Gloves – Efficacy of water leak test
  4. Latex Thread – Effect of coagulant agent
  5. Latex Foam – Synthetic latex & NR Blends
  6. Latex preservative system
  7. Latex composite
• Environmental Latex-Based Product
  1. Biodegradation of latex-based products
  2. Value added glove reclaimed
  3. BCIC project

Officers

Head of Unit
Latex Science and Technology Unit
Tel: 03-61561121 ext: 236; 03-61564962 (DL)
Email: amir@lgm.gov.my

Research Officer
Tel: 03-61561121 ext: 278
Email: klmok@lgm.gov.my

Research Officer
Tel: 03-61561121 ext: 239
Email: Vivayganathan@lgm.gov.my

Research Officer
Tel: 03-61561121 ext: 276
Email: evelyn@lgm.gov.my

Research Officer
Tel: 03-61561121 ext: 276
Email: shabinah@lgm.gov.my

Research Officer
Tel: 03-61561121 ext: 277
Email: qamarina@lgm.gov.my

Research Officer
Tel: 03-61561121 ext: 431
Email: manroshan@lgm.gov.my

Research Officer
Tel: 03-61561121 ext: 343
Email: tajulanuar@lgm.gov.my

Research Officer
Tel: 03-61561121 ext: 276
Email: aziana@lgm.gov.my

Research Officer
Tel: 03-61561121 ext: 432
Email: rosnimw@lgm.gov.my

Research Officer
Tel: 03-61561121 ext: 235
Email: akmal@lgm.gov.my

Publication

2007

• Ikram, A. (2006) Specific Degradation Rates of Decomposing Natural Rubber Latex Films. Malaysian Rubber Technology Digest Vol.6 (2006), 14-17
• Manroshan, S., Amir Hashim M.Y and Booten, K. The Effect of Hydrophobically Modified Inulin on the Properties of Natural Rubber Latex Concentrates. J. Rubb. Res., 10(3), 156 - 165
• Suriawati A., Amir Hashim M.Y. and Robin T. D. (2007) Natural Rubber Latex Prevulcanized Films with Nano-sized Layered Silicates, Presented at the Fall 172nd Technical Meeting of the Rubber Division of the American Chemical Society, Inc. Cleveland Ohio, Paper No. 29, October 16 – 18
• Manroshan, S. and Amir-Hashim M.Y. and Booten, K. (2007), Film properties of INUTEC SP1 stabilized natural rubber latex, Research Disclosure Database Number 523039, Research Disclosure Journal, ISSN 0374-4353
• Ikram, A., Ng, K.P., Amir-Hashim, M.Y. and Fauzi, M.S. (2007), The Role of Zinc through Its Influence on Chemical Residues in Affecting the Environmental Degradation of Prevulcanised Latex Films, Journal of Rubber Research, 10(4), in press
• Siti Nor Qamarina and Amir Hashim M.Y. (2007) “Zinc Containing Compound in Sulfur Vulcanization System”, International Conference on Advancement of Materials and Nanotechnology (ICAMN), Langkawi, 28th May to 1st June 2007
• Ruhida Ab Rahim, Azemi S and Amir Hashim M.Y. (2007), “Swelling Behavior and Tensile Strength of Natural Rubber (NR) Latex Film and NR: XNBR Latex Blend Vulcanized Film” International Conference on Advancement of Materials and Nanotechnology (ICAMN), Langkawi, 28th May to 1st June 2007
• Asrul Mustafa A. and Amir Hashim M.Y. (2007) Contact Angle and Surface Energy of Lignin Modified Natural Rubber Films, MRTD, Vol.7(1), pg17
• Suriawati A. and Amir Hashim M.Y. (2007) Visualizing Nano-sized Silicates in Prevulcanised NR Latex Films, MRTD, Vol.7(1), pg22
• Shamsul Bahri A.R. and Ikram A. (2007) Transmission Electron Microscopy Applications in the Visualization of Crosslinked Regions of Degraded NR Films, MRTD, Vol.7(1), pg33

2008

• Manroshan, S., Amir Hashim M.Y and Booten, K. “THE EFFECT OF A BIOBASED SURFACTANT ON THE PROPERTIES OF NATURAL RUBBER LATEX CONCENTRATES” at the Latex and Polymeric Dispersions 2008, Madrid 23 – 24th January 2008
• K.Vivaygananthan, M.Asrul and M.Y. Amir Hashim (2008) Blends of sulphur prevulcanized natural rubber latex and 2-(dimethylamino)-ethyl methacrylate-grafted latex for improved static dissipative properties. J Rubb Research., 11(1), 36-42
• A.Ikram, and M.Y. Amir-Hashim, (2008), An assessment of the endotoxins contents of natural rubber latex medical gloves, J.Rubb.Res. 11(1) p 29
• Aziana Abu Hassan and K.L. Mok, (2008), Identifying Major Sources of Endotoxin in Latex Surgical Glove Working Environment and Correlation of Endotoxin with Bioburden Contamination’, “Occupational Hygiene” Conference, Bristol, 13-15th May 2008
• Ahmad Nazir and Asrul M. (2008) Lignin Modified Natural Rubber and Its Potential Utilization in Natural Rubber Tread Compounds. Internal Report No: BTK/UUPT/2008/02
• Asrul Mustafa, Nik Intan Nik Ismail, Shamsul Kamaruddin, Aziana Abu Hassan, Kartini Abdol Rahim and Amir Hashim Md. Yatim (2008) Natural Rubber Composite with Enhanced Environmental Decomposition Features. Silver Award, 19th International Invention Innovation and Technology Exhibition, 9-11 May, Kuala Lumpur
• Mohamad Asri Ahmad, Shamsul Kamaruddin, Asrul Mustafa and Md. Aris Ahmad (2008) Natural Rubber Composite for Noise and Vibration Insulator. Bronze Award, 19th International Invention Innovation and Technology Exhibition, 9-11 May, Kuala Lumpur
• Manroshan S,.Mok K.L, Vivayganathan, K and Lim, H.M. (2008)., “Low Protein NR Latex: Sustainable Natural Material for Latex-based Medical Devices”, 4th International Rubber Glove Conference & Exhibition, KLCCC, 3rd Sep
• MANROSHAN, S., AMIR-HASHIM M.Y. AND BOOTEN, K. (2008) Biobased Surfactant as a Colloid Stabilizer in 50% Zinc Dibutyldithiocarbamate Dispersion. Journal of Rubber Research, 11(3), 134-146
• Vivayganathan, K.; Amir Hashim, M.Y. and Faridah Hanim, Environmental-friendly natural rubber latex preservation systems Proceedings, International Rubber Conference 2008, 20-23 October 2008, Kuala Lumpur, Malaysia
• SITI NOR QAMARINA, M.* AND AMIR HASHIM, M.Y. Effect of Heating on Vulcanized Latex Film to the Elution of Residual Chemical, Poster presentation, Proceedings, International Rubber Conference 2008, 20-23 October 2008, Kuala Lumpur, Malaysia
• Amir Hashim M.Y and Ikram, A., Environmental Degradation of Latex Gloves, “Gloves: Managing Infection Control Effectively’, Glove Seminar Series, 1–day seminar at Melbourne, Sydney and Brisbane, 8th-12th December 2008

2009

• Amir Hashim M.Y. and A. Ikram (2009), The Environmental Biodegradation of NRL Product, Paper 6, International Symposium on Green Technology for Global Carbon Cycle in Asia, March 23-24, Nagaoka University of technology, Centre for Green-tech development in Asia, Nagaoka, Japan
• Amir Hashim M.Y. Tajul Anuar, Mohd Akmal and Roslim Ramli (2009), Calcium Carbonate Filler in NR Latex Gloves, SMG Seminar, 31 March 2009, Hevea Academic, Malaysia Rubber Board, Sg Buloh
• Mok Kok Lang, SIti Nor Qamarina and Tajul Anuar (2009), “Improving NR as Biomaterial for Medical Device Application”, paper presentation at PRIM Polymer Technology Seminar, 28th Mac
• Evelyn Lim, Internal report on “a study of the effect of hydrophobically modified polyfructose in the production of polymer coated gloves with filler”. Report no: BTK/USTL/2009/01
• Roslim Ramli and Amir Hashim M.Y. (2009), Calcium carbonate in Natural Rubber Latex Films, 4th International Conference on Recent Advances in Materials, Minerals and Environment abd 2nd Asian Symposium on Materials and Processing (RAMM & ASMP) at Bayview Beach Resort, Penang, 1-3 June 2009v
• Prevalence of Type I hypersensitivity to NR gloves among Malaysian Healthcare Workers” – an end project report submitted to SPP and UPM collaborator
• “Thickness measurement of Male Condoms ”– a report under ISO/TC 157 for submission to WHO to propose change in thickness requirement, and ISO TC157 International meeting at Shanghai, China 12-16th Oct 2009
• “FitKit: Performance of Malaysian-made NR Medical Gloves” – an end project report in collaboration with MREPC and glove industry
• Rosni Mat Wan, Penyediaan artikel tentang proses pembuatan lukisan lateks (untuk keluaran Buletin Sains & Teknologi 2/2009)
• Mok Kok Lang (2009), “Measurement of Condom Thickness using Three Different Methods”, presentation at the ISO TC 157 26th International Meeting at Shanghai, China, 12-16th October, 2009
• Mok Kok Lang (2009), “The Use of an Aqueous Method to Determine Lubricant Amount in Condom”, a MRB collaborative Round Robin study report presented at the ISO TC 157 26th International Meeting at Shanghai, China, 12-16th October, 2009
• Mok Kok Lang (2009), Internal Report “Comparison of NR Male Condom Thickness Measured Using Different Method”
• Amir Hashim M.Y. and Rosni Mat Wan (2009), Sustaining and Enhancing Latex Products Industry , IRRDB Rubber Technology Seminar, Ho Chi Minh City, Vietnam, 15th December 2009

Awards

Advisory & Consultancy Services

Poster Gallery

Environmental Degradation of NR Latex Gloves
LGM Glove Fatigue Test Equipment
3-In-1 Peroxide Prevulcanised Natural Rubber Latex
Protein Allergy and Related Studies

Environmental Degradation of NR Latex Gloves A. Ikram Rubber Research Institute of Malaysia, Malaysian Rubber Board, P.O.Box 10150, 50908 Kuala Lumpur, Malaysia. NR is a biomaterial from a renewable resource that would eventually break down (biodegrade) in the environment upon disposal. When buried in soils, NR latex gloves physically disintegrate through the influence of the environment and are chemically transformed via initial peroxidation (abiotic or biotic) into low molecular weight oxidation products that can be bioassimilated by microbes. Environmental degradation studies of NR latex gloves facilitate moves towards environmental responsibility and sustainability. Research on the biodegradation rates of NR latex gloves in soils is concerned with predicting its environmental fate within a realistic time scale. Knowledge gained in these studies is used to brand and market NR’s conceptually green image and environmental advantage relative to bio-inert synthetic elastomers (nitrile, Plasticised PVC, polychloroprene, polybutadiene co-polymer).

LGM GLOVE FATIGUE TEST EQUIPMENT Ma’zam Md Said Rubber Research Institute, Malaysian Rubber Board, P.O.Box 10150, 50908 Kuala Lumpur, Malaysia. Glove may puncture or tear during use by mere flexing of fingers, even without contact with sharp objects. An indicator of glove durability due to fatigue failure is useful in choosing the right type of glove to serve specific task. LGM had developed a glove fatigue test equipment and a method of determining glove fatigue resistance using this equipment. The test is useful in giving a measure of fatigue resistance or durability of gloves during use. The absence of correlation between glove fatigue resistance and physical properties of gloves further enhances the usefulness of the test both for product performance indicator and for quality control purposes. The principle of the method is that the critical areas of the glove, especially the crotches of fingers are stretched and unstretched at a strain and rate that are close to that experienced by gloves during use. The glove is inflated and deflated with the expansion of the palmar areas restricted by using a cylindrical pipe. The results obtained so far indicate that NR medical gloves have a much superior fatigue resistance compared to nitrile and vinyl medical gloves.

Protein Allergy and Related Studies Hasma, H. Rubber Research Institute of Malaysia, Malaysian Rubber Board, P.O.Box 10150, 50908 Kuala Lumpur, Malaysia. Determination of Allergenic Protein Content (IgE-Elisa Inhibition Method) The method assayed the level of latex allergenic proteins which are proteins that could sensitise individuals to produce IgE antibody and which could bind to the IgE antibody in the sensitised individuals to elicit latex allergy reactions. The assay was adopted from the Finnish test method (Allergy 1998: 53: 59-67) while the IgE antibodies were from pooled human sera, which had been tested to contain specific IgE antibodies to latex. Fresh NR latex serum was used as the allergen source. Charging fee: RM 250 per sample Virus Permeability Test Barrier integrity of gloves could be assessed by its permeability to a bacteriophage F174 of 27 nm in diameter (1/5 the size of HIV). The test involved exposing the glove film to the virus (ATCC 13706-B1) suspension of titre 1x 106 pfu/ml and assay the amount of virus permeated or leaked in accordance to the method developed by LGM and CDRH (FDA) (J. Rubb. Res. 1998:1:209-221). The compatibility of the virus to the sample was also determined. Charging fee: RM 250 per sample

Contact

Dr Amir Hashim Md Yatim
Head of Latex Science & Technology Unit
Rubber Technology Centre
Rubber Research Institute of Malaysia (RRIM)
Malaysian Rubber Board (MRB)
47000 Sungai Buloh
Selangor Darul Ehsan

Tel: 03-6156 1121 ext 236
Fax: 03-6156 4962