The Plastics and Rubber Institute of Sri Lanka, and the Sri Lanka Association of Manufacturers and Exporters of Rubber Products, together with the assistance of the Export Development Board, conducted a two- day virtual workshop on Advanced Technology/Smart Manufacturing For The Rubber Product Industry In Sri Lanka, in December 2020. Despite the fact that the country was just raising its head from the deleterious aftermath of the first and second waves of Covid -19, the participation was beyond all expectations, thus indicating the weightage placed in keeping abreast of modern trends and moving with times by the industry community and the professionals and I presume that this is the current trend throughout the world.
As a member of the organising committee of the event and more as a hands-on person of the technologists of the not so modern generation, I realised that I was a curious and a rather passive observer of the currently fast unfolding industry scenario. The array of topics presented by local as well as overseas experts on their respective specialties was impressive. They covered Smart Energy Monitoring, IOT Built Industry Automation, Big Data Processing and applications, Conditioned based Monitoring for Maintenance, 3D/4D Printing, Virtual Product Design and Testing, Finite Element Analysis, and Product Failure Analysis.
It made me guessing with fascination, how much the information utilisation scenario in the manufacturing industry has metamorphosed during the past few decades since the times of two great discoveries/inventions, of Charles Babbage and Arthur. C. Clarke, that paved way for the evolution of the Information and Communications revolution. Charles Babbage (1791-1871) was an extraordinarily talented scientist, mathematician, economist and engineer. He is best known today - as he was in his lifetime - for inventing two types of cogwheel calculating machines, the forerunners of the modern computers. It was Arthur C. Clarke. after the crest of World War II, from his base in Stratford-On-Avon, England, as a young officer in the Royal Air Force, who dabbled in science fiction writing, floated the idea of global communications satellites in a 1945 letter to the publication Wireless World. It will be of interest to learn that the latter made Sri Lanka his second home and contributed in no small way to the development of ICT and astronomy in our country during the sixties and seventies.
As I gathered, with my rather limited knowledge of ICT, that the common features, of the modern-day innovations are generating a vast amount of real time data on all key aspects of the value chain, and interfacing between the value adding activities. Automation and reducing the dependability on the human factor has been another significant trend. Another key driver has been the necessity for reliability, agility and robustness in delivering products and services to the customer in the ever-changing customer preferences, which are again fueled willfully through product promotion and creation of new needs through massive adverting campaigns and mass communications. Companies are increasingly embracing the innovative technologies, to enable business growth, wealth accumulation, contribution to the national economies, which has helped in achieving improved quality of life, particularly in the traditionally termed developed countries.
Right through his anthropogenic evolution, Homo Sapiens or the “thinking man” has been characterised by the use of his brain to find easier and faster ways of doing things, which was an absolutely vital advantage for his survival in the primitive hostile environment. Commencing with use of stone tools, discovery of fire, and iron, this trend has continued throughout the history of mankind. During the more recent period of the last three centuries, which culminated in the Industry 4.0, some key landmarks, which reflect the quest of the mankind to better lives, through increased and efficient resource utilisation can be identified.

Revolutions
This process began in Britain in the 18th century and from there spread to other parts of the world. Although used earlier by French writers, the term Industrial Revolution was first popularised by the English economic historian Arnold Toynbee (1852–83) to describe Britain's economic development from 1760 to 1840. The first industrial revolution came with the advent of mechanisation, steam power and water power. This was followed by second industrial revolution which revolved around mass production and assembly lines using electricity. Henry Ford’s conveyor belt system was put into motion in December 1st of 1913 in his Detroit manufacturing plant. Fully mechanised, or partially mechanised, assembly lines allowed Ford to offer a vehicle for a working family. One of his goals was to have a car that every family could own.
The car that every family would soon come to own was the Model T. His manufacturing plants would go on to produce over 15 million Model Ts and this is due almost entirely to his assembly line. In order to achieve a production of the Model T at such a high rate, he needed to break down the process of assembling the car to make it as efficient as possible to produce, while still being financially accessible.
The third industrial revolution came with electronics, IT systems and automation, which led to the fourth industrial revolution that is associated with cyber- physical systems. Some of the principles of which were the topics of the December Workshop. Generally speaking, Industry 4.0 describes the growing trend towards automation and data exchange in technology and processes within the manufacturing industry, including:
- The internet of things (IoT)
- The industrial internet of things (IIoT)
- Cyber-physical systems (CPS)
- Smart manufacture
- Smart factories
- Cloud computing
- Cognitive computing
- Artificial intelligence
This automation creates a manufacturing system whereby machines in factories are augmented with wireless connectivity and sensors to monitor and visualise an entire production process and make autonomous decisions. Wireless connectivity and the augmentation of machines will be greatly advanced with the full roll out of 5G
The fourth industrial revolution also relates to digital technologies that can create virtual versions of real-world installations, processes and applications. These can then be robustly tested to make cost-effective decentralised decisions. In short, this should allow for digital transformation and for automated and autonomous manufacturing with joined-up systems that can cooperate with each other.
Black spots
It can thus be unanimously agreed that the emerging technologies have already resulted in tremendous benefits for mankind and that they have vast future potential in changing the entire human civilisation. While appreciating and accepting the usefulness of the technologies, I cannot refrain from contemplating on the black spots in the white cloth. The disadvantages of the digital technologies have been well documented throughout the world and some of these, include, data security, digital media manipulation, job insecurity, over reliance on gadgets, addiction, depersonalization, and social alienation, and stress related physical and mental illnesses and the list is not exhaustive. Diminishing of the human touch is considered by many, as a matter of grave concern, and its effect on the personal, ethical, family and social has already begun to reveal its dark side.
As an adaptive measure of the new normal mentality that followed the Covid-19 pandemic, “Social Distancing” intruded our day to day activates over the past one and half years. However, on thinking reflectively, it will be evident that Social Distancing actually had its beginnings in the first three industrial revolutions, while it got aggravated in the recent years. Dilemmas and debatable questions as to whether dehumanisation is still progressing and what will be the outcome, if the current rate of rapid technology trend continues? These will become key challenges for the sociologists and sociopsychologists and the modern HR specialists. Prioritising automation and sub optimisation of the human resource, in the disguise of improving operational efficiency, as a business strategy of maintaining sustainability, could turn out to be short lived.
Over dependence on technology at the expense of losing the much-required human touch and interpersonal relationships, can be witnessed in many of the day-to-day activities, such as internet or online banking, bill payments, buying at super markets, home deliveries, and on-line webinars. I have personal experience of the short comings of on-line lecturing for students and on virtual workshops, which can only be utilised as a stop gap measure. As a person of the “old generation,” I find it an exhilarating experience to walk to the local bank, greet good morning to the staff, and having a friendly chat with the familiar cashier, while getting my transaction done. Some may equate such practices to lack of time management and productivity. Human interaction of this kind holds a special position in countries such as India and Sri Lanka, which has rich religious and cultural heritages, and adopting the new technologies as a panacea for improving all the aspects of efficiency and productivity in an effort be stay competitive can only be a short-term strategy.
It was Robert Frost, the American poet (1874-1963), who once philosophically remarked, “don’t ever take fence down, until you know why it was put up”
Obsolescence due to ineffective use or total non -use which we witness with machinery and equipment, may be applicable to the humans as well. It is said that the human body has about one hundred, vestigial organs, including the appendix, which have become nonfunctional, during the evolutionary process as a result on non-use and obsolescence. (TT)
- RuLa-BRW
- AZuR Network # Battery-Electric Public Transport
- Berliner BUS400 Premium HL EV
- Retreaded EV Tyres
RuLa-BRW Unveils Specialised Retreaded Tyre For Berlin's Electric City Buses
- By TT News
- July 14, 2026
RuLa-BRW, a partner in the AZuR network, has introduced the Berliner BUS400 Premium HL EV, a hot-retreaded tyre engineered specifically for the operational realities of electric city buses. The launch addresses a critical facet of the mobility transition, shifting focus from powertrain emissions to the sustainability of vehicle components. This new offering expands upon the established Berliner BUS400 profile, targeting the distinct mechanical stresses imposed by battery-electric public transport.
Electric buses present unique challenges for tyre design, including substantial weight increases from traction batteries, elevated starting torque and the relentless stop-and-go cycles inherent to urban routes. These factors place considerably greater strain on tyres compared to those used in conventional diesel or gas-powered buses. The BUS400 Premium HL EV has been developed to withstand these rigorous conditions while maintaining performance and safety standards.
The tyre features a robust carcass construction paired with a specialised rubber compound formulated for electric bus traffic, according to RuLa-BRW. This combination is designed to deliver extended mileage, consistent driving stability and cost-effective operation within demanding city environments. The development underscores a commitment to the circular economy, demonstrating how modern retreading techniques can repurpose premium tyre casings multiple times, significantly prolonging their useful life and conserving raw materials.
For public transport operators, the synergy of electromobility and tyre retreading offers tangible operational and environmental benefits. The new tyre enables fleets to reduce new tyre purchases while maximising the service life of existing casings, complementing the zero-emission operation of their vehicles. This innovation highlights that the mobility revolution extends beyond drive systems to encompass the full lifecycle of components, reinforcing the retreading industry’s role in sustainable transport solutions.
Machine-Vision.io Brings Automated Tyre Diagnostics To AZuR Network
- By TT News
- July 14, 2026
The Alliance for the Future of Tires (AZuR) has expanded its partnership roster with the addition of Machine-Vision.io, a Reutlingen-based innovator that secured first place in the AZuR startup competition LOOP THE TYRE 2026. The company develops artificial intelligence-powered systems for the automated assessment, classification and sorting of used and scrap tyres. Its technology employs advanced image processing, laser scanners and machine learning to detect manufacturer details, tyre type, dimensions, production dates, tread depth, wear patterns and structural damage, delivering objective and reproducible condition reports.
Manual inspection remains the industry norm, with outcomes often shaped by individual employee experience. Machine-Vision.io digitises this workflow, introducing standardised and verifiable quality evaluation capable of handling high-volume tyre inventories. The generated data enables businesses to route suitable tyres towards reuse or retreading operations while directing non-compliant units to appropriate recycling pathways. This systematic approach improves material flow efficiency and strengthens high-grade recycling loops.
Beyond automated evaluation, the startup provides web-based solutions for tyre inventory management and marketing. Test outcomes, stock quantities and quality classifications are captured digitally and can be synchronised with online marketplaces. Such integration enhances transparency across the supply chain and simplifies the matching of tyres with their most suitable next-use applications.
Through its two-year partnership within the AZuR network, Machine-Vision.io will collaborate with companies, researchers and other stakeholders along the entire value chain to advance the tyre circular economy. The initiative illustrates how digitalisation and objective data can support informed decision-making, potentially increasing the supply of retreadable casings and fostering the continued development of sustainable material cycles.
Tana Oy Appoints AB Equipment As Exclusive New Zealand Distributor
- By TT News
- July 14, 2026
Tana Oy has announced the appointment of AB Equipment as its new authorised distributor for the New Zealand market, a strategic move that bolsters the Finnish manufacturer’s footprint across the Asia-Pacific region. This collaboration is designed to elevate local service capabilities and ensure that New Zealand-based operators receive responsive, on-the-ground support.
AB Equipment, a nationally recognised provider with deep expertise in material handling, construction, forestry and municipal machinery, will now carry Tana’s complete range of landfill compactors and recycling equipment. Leveraging its extensive countrywide service infrastructure and technical proficiency, the distributor is well-equipped to manage customer needs from initial commissioning through to long-term maintenance and repairs.
Within Tana’s global sales network, authorised distributors are instrumental in delivering region-specific knowledge and comprehensive lifecycle care. This latest agreement reinforces that commitment, promising New Zealand customers enhanced reliability and sustained operational value from their Tana machines while further solidifying the brand’s international service standards.
Gerd Schreier, VP Sales and Marketing, Tana Oy, said, “Expanding our distributor network with strong local partners is a key part of our growth strategy. AB Equipment’s deep market knowledge and nationwide coverage make them an excellent fit to represent Tana in New Zealand. Together, we can better support waste management operators with efficient and sustainable solutions.”
Peter Dudson, CEO, AB Equipment, said, “With over a century of experience in heavy equipment and a strong focus on customer support, we are excited to bring Tana’s solutions to the New Zealand market. Tana’s technology aligns well with the needs of our customers, particularly in improving efficiency and supporting more sustainable waste management practices.”
Michelin Opens Tyre And Service Outlet In Kanpur To Strengthen Retail Presence
- By TT News
- July 14, 2026
Michelin has opened a new Michelin Tyres & Services (MTS) outlet in Kanpur in partnership with HJ Wheels, expanding access to its products and services in the city and surrounding areas.
Located in Harsh Nagar, the outlet offers Michelin's range of passenger car, SUV and two-wheeler tyres, including the Primacy, Pilot Sport, Latitude Sport and LTX Trail series. It also provides tyre-related services and automotive accessories.
The facility was inaugurated by Annu Mehla, Regional Sales Head – B2C (North and East), Michelin India, alongside the HJ Wheels team.
Shantanu Deshpande, Managing Director of Michelin India, said: "Kanpur is a pivotal market in Michelin's North India growth journey with a strong automotive customer base and a growing interest in premium products. The launch of our new Michelin Tyre & Services store is a step towards bringing Michelin's globally benchmarked products and services closer to this growing base of discerning customers. As we prepare to introduce Made-in-India passenger car tyres, we remain focused on delivering premium mobility solutions tailored to the evolving needs of Indian consumers."
Michelin said the outlet is intended to improve access to its products and services as demand for premium automotive offerings grows in the region.
The company said Kanpur's improving connectivity through new expressways, expanding presence in electric and advanced manufacturing, ongoing urban development and changing consumer preferences influenced its decision to strengthen its retail network in the city.
The new outlet has been established with HJ Wheels, an automotive aftermarket business that has operated in Kanpur since 1989. Michelin said the partnership reflects its strategy of working with established local retailers to expand its customer reach.

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