Die Cutting in PSA Labels: From Stan Avery’s Innovation to Modern Laser Technology-Part 3

Die Cutting in PSA Labels: From Stan Avery’s Innovation to Modern Laser Technology-Part 3

Die Cutting’s Impact on Matrix Removal and Rewinding

The die-cutting process extends beyond simply making cuts in the label material. Subsequent operations, including matrix removal—stripping waste material from finished labels—and rewinding the completed label roll, are directly influenced by the quality and parameters set during die cutting.

Matrix Removal: Challenges and Efficiency

Matrix removal difficulty is closely tied to blade height and cutting depth. When blades cut deeply into the liner, a pronounced score is left, which can make peeling the label easier. However, this can also lead to liner tearing during matrix stripping at high speeds. Balancing ease of label peeling with maintaining matrix integrity requires careful optimization, considering the specific application and production speed requirements.

Matrix removal efficiency depends on producing clean and complete cuts. If the die blade lacks sharpness or the cutting pressure is too low, labels may not separate cleanly from the matrix, resulting in tearing during stripping. Such issues generate waste and slow down production as operators must clear jams.

The shape of the label affects matrix removal as well. Small interior cuts, sharp corners, tight radius corners, and thin connecting strips in the matrix are more susceptible to tearing during stripping if die cutting is not precise. Dies should be designed with matrix removal in mind, sometimes incorporating relief cuts or modified geometries to reinforce the matrix in its most vulnerable areas.

Stripping Tension and Liner Integrity

Stripping tension needs to be carefully managed. If tension is too low, the matrix can bunch or fold, leading to unreliable stripping and potential web breaks. If tension is too high, labels may be pulled partially free from the liner if the kiss cutting depth is shallow, resulting in defects in the finished product.

Liner integrity after kiss cutting has a significant impact on rewinding quality and downstream performance. Liners deeply scored by excessive die penetration are more likely to break during rewinding, especially at the edges where tension is concentrated. This can cause production stops and waste. Even if the liners withstand rewinding, too much die-strike damage may result in failures when the label roll is unwound in applicators.

Edge Quality and Rewinding

Edge quality from die cutting influences how well labels are rewound. Rough or stringy edges can catch on to adjacent wraps as the roll builds, leading to telescoping (uneven roll sides) or starring (radial compression lines visible on the roll face). These defects compromise roll quality and may cause applicator problems when the labels are used.

Rewind tension control must consider the residual stresses introduced during die cutting. Materials stressed during cutting may display different tension characteristics compared to uncut material. Tension compensation is needed as the roll builds to maintain uniform roll density and prevent defects.

Diverse Types of Dies for Specialized Applications

Beyond the use of standard flexible and solid rotary dies, the label industry employs an array of specialized die types to meet the specific requirements of various applications and materials. These alternatives allow converters to address unique production challenges and enhance efficiency in niche scenarios.

Adjustable Dies

Adjustable dies are designed with removable blades, which can be replaced when worn or when different materials need to be processed. While less frequently used in narrow-web label converting, adjustable dies offer valuable flexibility for converters working with a wide variety of substrates, eliminating the need to keep extensive inventories of dies for each material type.

Combination Dies

Combination dies integrate multiple cutting functions into a single tool. For example, a combination die might feature both cutting and creasing blades, enabling the production of folding cartons or multi-panel labels in one pass. Perforation blades may also be included to create tear-off sections or features for easy opening. By consolidating several processes into a single die station, combination dies reduce the number of stations required, shorten setup times, and can improve registration accuracy by completing multiple operations in one controlled step.

Embossing and Debossing Dies

Embossing and debossing dies produce three-dimensional effects in label materials, enhancing visual appeal or providing tactile security features. These dies function through matched male and female patterns and require precise pressure control to ensure consistent depth without damaging the substrate. For embossing applications, magnetic cylinders with enhanced holding force are used to maintain die alignment under the substantial pressures involved.

Hot Stamping Dies

Hot stamping dies are used to transfer metallic or pigmented foils onto labels using heat and pressure. Although they are not cutting tools themselves, hot stamping cylinders are often integrated with die cutting stations for inline processing. These cylinders must manage both accurate temperature control and the mechanical requirements of maintaining the die or foil pattern in precise registration.

Perforation Dies

Perforation dies are engineered to create lines of weakness in materials, facilitating controlled tearing. The blades are precisely spaced, with cutting edges separated by gaps to produce an alternating cut-and-uncut pattern. The ratio of cut to tie length determines the ease of tearing and must be carefully designed for each application and material.

Micro-Perforation Dies

Micro-perforation dies refine the perforation process to produce nearly invisible perforations that still allow clean tearing. These dies are suited for security applications, pharmaceutical labels, and other situations where the perforation must remain hidden until use.

Normal vs. Laser-Hardened Dies

Choosing between standard dies and laser-hardened alternatives is a critical decision for label converters, balancing economic and performance factors.

Standard Dies

Standard dies are made from tool steel, CNC-machined to precise specifications, and heat-treated using conventional methods to achieve hardness levels between 52 and 58 HRC. These dies are reliable and cost-effective for many applications, making them ideal for short runs, prototyping, or processing less abrasive substrates. However, their limitations become apparent during high-volume runs or when converting abrasive materials such as thermal papers, thermal transfer stocks, or certain films. The cutting edge of standard dies gradually wears down and becomes rounded, which requires increased cutting pressure or slower line speeds. Eventually, dies must be re-sharpened or replaced, impacting productivity and increasing costs.

Laser-Hardened Dies

Laser-hardened dies employ focused laser energy to selectively harden the cutting edge, achieving hardness levels of 65-68 HRC, and up to 80 HRC for specialized chrome-coated versions. The laser hardening process creates a shallow, hardened zone at the cutting-edge tip while retaining normal hardness in the rest of the die for flexibility. This selective hardening significantly extends die life, sometimes by two or three times compared to conventional dies, reducing tooling costs per thousand labels produced. The harder edge stays sharper longer, ensuring consistent cutting quality and less frequent die changes or press adjustments. The hardened surface also reduces friction and adhesive buildup, preserving cutting quality and cleanliness. For converting abrasive thermal materials, laser-hardened dies may be the only practical option for achieving satisfactory production runs without constant maintenance.

Economically, laser-hardened dies are favored for high-volume applications. Although their initial cost may be significantly higher, their extended life and reduced downtime offer a compelling return on investment when producing millions of labels. Standard dies remain a better choice for short runs or frequently changing designs, given their lower upfront cost.

Alternative Die Cutting Technologies

While rotary die cutting is the mainstay of label production, alternative technologies are increasingly important for specialized applications and are gaining market share.

Semi-Rotary Die Cutting

Semi-rotary die cutting blends elements of flatbed and rotary systems. The web advances intermittently, while the die rotates. This hybrid mechanism enables fast changeovers and digital registration, making it ideal for digital-flexo hybrid presses where variable data printing is combined with die cutting. Although slower than full rotary systems, semi-rotary die cutting offers flexibility valuable for short runs and custom labels.

Laser Cutting: The Future of Label Die Cutting?

Laser cutting technology has advanced greatly, now serving as a viable alternative to conventional die cutting for many uses. It utilizes a focused laser beam to cut or perforate materials through controlled ablation and vaporization.

CO2 Lasers

CO2 lasers, operating at a 10.6-micron wavelength, are most used for labels, effectively cutting organic materials like paper, PET films, and polypropylene. Fiber lasers, working in the near-infrared spectrum, are gaining popularity for metallized materials and multi-layer constructions.

Laser cutting provides several advantages. Without the need for physical dies, setup times are reduced dramatically, and new patterns can be loaded within seconds. This makes laser cutting ideal for very short runs or custom labels where die costs would otherwise be prohibitive. Digital files allow for rapid design, iterations and customization, supporting personalized packaging and limited-edition products. Laser cutting delivers exceptional precision, enabling features as small as 0.1 mm and positional accuracy measured in microns. Complex shapes, small text, micro perforations, and other demanding features can be executed digitally with consistent quality.

However, laser cutting has limitations that prevent it from taking over high-volume label production. Speed is the primary constraint; even the fastest laser cutters lag behind rotary die cutting in throughput. Complex shapes further slow the process, making laser cutting less attractive for intricate designs despite its precision. Material compatibility also poses challenges. Some materials may release toxic fumes or reflect laser energy, making them difficult to cut. The heat-affected zone around laser cuts can cause discoloration or melting, impacting aesthetics or peel characteristics.

Operating costs for laser systems include high electrical consumption, regular replacement of laser components, and advanced exhaust systems to manage fumes and vaporized material. These costs must be considered when comparing economics to conventional die cutting. Despite these challenges, laser cutting is well-suited for security labels, pharmaceutical serialization, prototyping, and ultra-short runs. Hybrid systems that combine digital printing and laser cutting are expanding options for brand owners seeking customization.

Plotter-Type Die Cutting: Speed and Capabilities

Digital plotter cutting systems use a computer-controlled knife or blade, guided by digital patterns. The cutting head moves along X and Y axes, with blade depth controlling penetration, enabling kiss cutting, through cutting, or creasing. Modern plotter systems can achieve speeds up to 60-80 meters per minute for simple shapes, though complex cutting paths reduce throughput. Their advantage lies in flexibility—job changeovers require only loading a new digital file rather than changing physical tooling.

Plotter systems excel in prototyping and short-run production. Design firms and brand owners can quickly produce physical label samples from digital artwork, accelerating product development. Custom labels in small quantities are economical without traditional die setup costs. Registration capabilities have advanced through camera-based systems that read registration marks, automatically compensating for printing variations and keeping cuts aligned. Some systems can even adjust for material distortion or skew, ensuring precise cutting.

Plotter cutting is compatible with many materials, though extremely stretchy materials may deform rather than cut cleanly, and abrasive materials can accelerate blade wear, requiring frequent replacement and increasing costs. Plotter systems are economically superior for runs below 5,000-10,000 labels, where die costs are the largest expense. As volume rises, slower speeds and higher per-unit costs make rotary die cutting more practical. The crossover point depends on label complexity, material, and die life expectations.

Hybrid workflows that combine digital printing and plotter cutting are enabling new business models, such as print-on-demand label services with no minimum orders or tooling charges. Variable data capabilities allow each label to be unique, supporting serialization, personalization, and limited-edition launches.

Written by Harveer Sahni, Chairman Weldon Celloplast Limited, New Delhi, April 2026

Die Cutting in PSA Labels: From Stan Avery’s Innovation to Modern Laser Technology-Part 1

Die Cutting in PSA Labels: From Stan Avery’s Innovation to Modern Laser Technology-Part 1

The pressure-sensitive adhesive labels industry owes its existence to a struggling clerk working in a loft above a flower shop in downtown Los Angeles. In 1935, Ray Stanton Avery, who went by name Stan, was living in near poverty, residing in a rented chicken coop while working at the Midnight Mission to pay his way through college. What he created with a $100 loan from his fiancée Dorothy Durfee would transform how products are labeled worldwide and launch an industry that today generates billions in revenue.

The Genesis: Stan Avery’s Revolutionary Label

Stan Avery didn’t just invent the self-adhesive label, he invented the entire machinery to produce it. Using parts from a washing machine motor, a sewing machine, and a saber saw, he created and patented the world’s first self-adhesive, die-cut labeling machine. His company, initially named Kum Kleen Products, advertised the ability of these labels to be removed without leaving a mark on merchandise. The first Avery labels were simple, round price stickers meant for gift shops and retailers. In his first six months of operation, sales totaled a modest $1,391. Few could have imagined that this humble beginning would evolve into Avery Dennison, a Fortune 500 corporation with global operations across more than 50 countries and 36,000 employees worldwide.

The innovation Stan Avery brought to market solved a fundamental retail problem. Before pressure-sensitive labels, merchants relied on gummed labels that required moistening with water or paste, a time-consuming and messy process. Avery’s self-adhesive labels eliminated this inconvenience entirely, creating a faster and more practical labeling solution. His vision extended beyond the label itself to include the machinery for precise die-cutting, which would become the foundation of label converting technology.

By 1940, Avery had moved beyond his humble beginnings and officially started selling his products under the brand name Kum Kleen Price Stickers. The company incorporated in 1946 as Avery Adhesive Label Corporation, and in 1990 merged with Dennison Manufacturing to form Avery Dennison. Throughout his career, Stan Avery received 18 patents for his innovations in pressure-sensitive materials and production technologies. His legacy lives on, not just in the company that bears his name, but in every self-adhesive label produced today.

The Evolution of Die Cutting Technology

Die-cutting itself predates Stan Avery’s innovation by nearly a century. The process was invented in the mid-1800s to help the shoemaking industry. Cutting leather soles for shoes by hand was laborious, time-consuming, and expensive. The invention of the die-cutting machine revolutionized cobbler work, allowing shoes to be cut to consistent sizes and shapes rather than crafted individually. This standardization enabled modern shoe sizing as we know it today.

Flatbed Die Cutting: The Foundation

The earliest die-cutting machines used in the label industry were also flatbed presses. These hydraulically operated machines use a steel rule die to “click cut” or punch out die-cut parts by driving the die in a downward motion through the material. The flatbed die-cutting press operates much like a stamp, pressing a flat die onto material that sits on a stationary surface, applying even pressure to cut the material into the desired shape with each strike.

Flatbed dies are used with hydraulic or mechanical presses and other lifting systems to press a die down on a sheet of material. They are particularly suited for heavier materials and thicker substrates, making them less ideal for pressure-sensitive labels but excellent for applications requiring precision cutting of rigid materials. Steel-rule die cutting uses a formed strip of hardened steel set into a slotted plywood die-board, with rubber ejectors aiding part release after the cut.

While flatbed die cutting adapted for labels, offers excellent control over each cut and is ideal for intricate shapes with close tolerances, it operates at a considerably slower pace compared to rotary systems. Typical speeds range from 1,000 to 5,000 cycles per hour, making it suitable for small or mid-sized batches but impractical for high-volume label production. The tooling costs for flatbed dies are significantly lower than rotary alternatives, and the ability to make quick die changes makes them valuable for short-run or prototype jobs.

The Rotary Revolution in Label Converting

The transition from flatbed to rotary die cutting marked a transformative moment in label converting. Rotary die cutting uses a solid cylindrical die that rotates continuously in sync with the web material, paired with an anvil cylinder. The press feeds thin, flexible material, known as web, between these two cylinders. The cutting-edge pinches material against the anvil cylinder, producing clean cuts, perforations, or creases at exceptionally high speeds.

This method revolutionized label production by dramatically increasing throughput. Modern rotary die-cutting systems can reach 10,000 cycles per hour or more, with the fastest machines achieving speeds of 300 meters per minute. The ability to perform inline with printing and other finishing operations means that labels can be printed, die-cut, matrix stripped, and rewound in a single pass, transforming manufacturing efficiency.

A series of gears or servo motors now, force the die to rotate at the same speed as the rest of the press, ensuring that cuts line up precisely with the printing on the material. Rotary presses can incorporate multiple stations that die-cut specific shapes, perform perforations, create creases, or even cut the sheet or web into smaller sections. Some machines use automatic eye registration to ensure cuts and printing align with tolerances measured in fractions of a millimeter, critical for complex label designs and high-quality output.

The economics of rotary die cutting favor high-volume production. While the initial tooling costs are higher than flatbed alternatives, the operational efficiency brings labor expenses down over time. For standardized, repeat orders running into millions of labels, rotary systems offer compelling long-term value and unmatched productivity.

The Magnetic Cylinder Revolution

While the exact inventor and date of the magnetic cylinder for flexible dies are not definitively documented in available industry records, this innovation transformed the economics and flexibility of rotary die cutting. The magnetic cylinder system addressed a fundamental challenge: solid engraved rotary dies were expensive to manufacture, store, and transport, making them cost-prohibitive for short to medium production runs.

Magnetic cylinders are precision-engineered metal cylinders embedded with powerful magnets, either ceramic or neodymium rare earth magnets, on their surface. They are designed to hold flexible dies—thin, etched steel dies—firmly in place during rotary die cutting. The magnets ensure that every square inch of the flexible die remains securely pressed against the precision-ground cylinder surface, preventing any lifting or shifting during high-speed operation.

In 2005, Bunting Magnetics launched the X-treme Magnetic Die-Cutting Cylinder, the first magnetic die-cutting cylinder in the world with total run-out accuracy below 40 millionths of an inch (1 micron). This level of precision was revolutionary, enabling clean cuts even on extremely thin materials like 1-mil stock with less than 1-mil liners, on “no-look” labels, and on synthetic materials that previously posed challenges.

The advantages of magnetic cylinders transformed the label industry. Mounting and removing flexible dies takes just minutes, dramatically reducing downtime during job changeovers, particularly valuable in short-run label printing or multi-SKU packaging environments. The cylinders weigh significantly less than solid rotary dies, reducing operator fatigue, machine wear, and transportation costs. Most importantly, they enabled the use of flexible dies, which cost a fraction of solid engraved cylinders and could be stored flat, saving valuable warehouse space.

Today, magnetic cylinders are available for virtually all types of label presses and converting machinery, from brands like Mark Andy, Gallus, Nilpeter, Omet, Rotoflex, etc. Custom designs accommodate a variety of special applications, making magnetic cylinder systems remarkably versatile.

Flexible Dies: Engineering and Innovation

The development of flexible dies went hand in hand with magnetic cylinder technology. Flexible dies are thin sheets of steel, typically ranging from 0.5mm to 1.5mm in thickness, that wrap around magnetic cylinders and are used for rotary and semi-rotary presses. These dies are produced from specially formulated steel and undergo several sophisticated manufacturing processes.

Manufacturing Process

Production of flexible dies begins with plotting an image directly on the die material. Background material is then removed through chemical etching, and CNC mills create the required cutting or creasing lines with extraordinary precision. The cutting geometry includes profile heights ranging from 0.3mm to 1.5mm and cutting angles that vary based on the material being cut, typically from 30° to 110°.

The manufacturing process includes several optional treatments. Back grinding ensures consistent die thickness. Chemical de-burring smooths edges to prevent damage to the label stock. Most critically, laser hardening and various surface coatings dramatically extend die life and performance.

Die Materials and Surface Treatments

Standard flexible dies are CNC-sharpened and feature smooth polished cutting edges obtained using ultra-fine edge polishing techniques. These universal dies are suitable for all types of self-adhesive and single-material products including paper, PP, PE, PVC, PET, Tyvek, thin films on PET liner material, and other materials that are difficult to cut.

Laser hardening represented a breakthrough in die technology. Companies like Kocher + Beck were the first manufacturers in the world to achieve hardness levels of 65 to 68 HRC through laser hardening technology. This process extends die service life by two to three times longer than conventional dies. The laser hardening increases hardness at the tip of the cutting edge based on the carbon content in the steel, creating exceptional wear resistance while maintaining die flexibility.

For extremely demanding applications, chrome-coated dies offer even greater durability. A thin layer of chromium, typically 0.01mm thick with a hardness of 70-80 HRC, enables extremely high running performance with outstanding wear properties. These dies are particularly suited for abrasive thermal and thermal transfer papers used in longer production runs.

Non-stick coatings represent another important innovation. Special onyx or polymer coatings have no detrimental effect on the cutting-edge angle or sharpness while preventing adhesive and ink deposits on the cutting blades. These coatings are food-safe, FDA-approved, and significantly reduce downtime for die cleaning. The reduced friction and perfect resistance to wear enable maximum running performance with a consistently sharp cutting edge.

To be continued to part-2

Written by Harveer Sahni, Chairman Weldon Celloplast Limited, New Delhi, January 2026

LMAI conference 2025, bigger and better, deliver’s awe!

LMAI conference 2025, bigger and better, deliver’s awe!

Celebrating 25 years of inception along with their biennial Conference themed, “Emerging Beyond Boundaries”, Label Manufacturers Association of India LMAI, delivered value! 

700 plus delegates were awestruck attending the seventh LMAI conference  at the picturesque and astounding venue, The Fairmont Palace Udaipur from 3rd to 6th July 2025. All 300 rooms at the property were booked at the venue Hotel and additionally 60 rooms were booked  in Hotel Aurika with a total of 360 rooms. 35 sponsors including some of the most renowned names in the world for the label manufacturing industry supported the event.  Kurz was the platinum sponsor and Avery Dennison the elite sponsor besides many others. Fairmont Udaipur Palace is an alluring destination to discover the charm of Udaipur, seamlessly blending timeless tradition with modern elegance, featuring a historic stepwell, one of Rajasthan’s largest ballrooms and exclusive events pool with jacuzzi and amphitheater. Nestled in the Aravalli Hills, it offered easy access to the city’s top attractions and cultural landmarks. In view of the author who has travelled the world over for diverse label events, 

This three nights-four days event, packed with amazing presentations and entertainment, was perhaps the biggest label event in the world”!

Traditional Rajasthani welcome awaited the delegates arriving by road rail and air. Local folk dancers, drums, music, garlands, traditional aarti and special beverages were a part of  the welcome on arrival while being ushered into the hotel. Excellent arrangements executed for their arrival and meticulous planning made it stress free checking-in for all guests. 

The conference was officially thrown open at 6PM on the 3rd of July 2025. The inaugural evening was themed patriotic, so the board of directors (BOD) were all wearing the Modi jackets and tricolor stoles around their necks.  

The welcome note was delivered by the LMAI President Rajesh Chadha.

The conference agenda information was given by the two conference Chairmen Manish Desai and Jaideep Singh. 

Pradeep Saroha events director of Labelexpo India came onstage to apprise  the audience about the upcoming Labelexpo Europe. 

This was followed by Raveendran Selvarajan, Managing Director of Seljegat Printers Pvt.Ltd. being conferred the fourth LMAI lifetime contribution award. 

It was a pleasant surprise that after a lapse of few years the LMAI founder president Surendra Kapur came to attend the conference.  

After a presentation by Stephane Royere from platinum sponsors Kurz, all the event sponsors were felicitated. 

Thereafter the Welcome night themed “Saar’e Jahan Se achha”, was thrown open for cocktails, dinner and entertainment by Mohit Verma and troupe. The delegates, eager to party, hit the dance floor until late in the evening. When asked to wrap up so that they are back in time for the presentations next day, happy people were heard saying, “Abhi toh party shuru huyee hai!” Means, the party has just begun.

The second day commenced with another presentation by Stephane Royere, Head of business area packaging and print, international sales and marketing, of Kurz India and followed by one from Jitesh Mehta senior Director LPM Avery Dennison India. 

The vibrant young girl Natasha Jaichandra director VEEPEE graphics enthralled the audience speaking on the ECG (expanded colour gamut).

After that followed an array of great presentations. Notable amongst them were from Appadurai country head of HP Indigo, Thomas Schweizer Global head of sales at Heidelberg Gallus.  

A huge attraction was LaBella!  She is an AI robot, she added glamour in leading delegates to wherever they wished to go!

Pawandeep Sahni, Managing Director of OMET India Private Limited made a high powered and energetic presentation pulling the audience into attention and becoming interactive. The presentation can be viewed on YouTube https://youtu.be/cVtHUPa-OGo?feature=shared Click the image on the left to watch the full presentation.

The preplanned motivational speaker’s slot had to be altered to the next day as Gaurav Arya, who was supposed to deliver the motivational speech, could not reach due to flight cancellations. The LMAI leadership must be commended for arranging yet another speaker in a short time. Anand Ranganathan, a renowned speaker, agreed to fly in on the next day that was final day and address the label fraternity. 

The label industry continues to evolve, emerging beyond boundaries. The wet glue or glue applied labels have continued to transform initially to self-adhesive labels, converted on narrow web label presses and register a high growth rate to reach more than 50% of all the labels produced in India. Later the narrow web converting started to expand owing to evolution and labels, moved into diverse tangents. To dwell on the impact of this expansion and the modalities involved, the first program on the 3rd day was a panel discussion moderated by the author Harveer Sahni and titled, “Narrow web label converting expanding to diverse applications”. The panelists were leading Indian printers in narrow web converting, Priyata Raghavan Deputy CEO of Sai Packaging, Mehzabin Nair Managing Director Skanem India, Ankit Gupta Jt. Managing Director Holostik Limited, Hemanth Paruchuri director Pragati Pack, Denver Annunciation Director Janus International and Stephane Royere of Kurz India. The impact and future of this expansion was discussed at length in the panel. 

The panel discussion was followed by a very interesting and confident presentation for Weigang by the young daughter of LMAI founder Amit Sheth.

More presentations followed until noon after which the motivational speaker Anand Ranganathan came onstage to deliver his speech. Following this a round table interaction was arranged for all sponsors to interact with printers. Each sponsor was given a table on which printers would visit in batches of six each to enable sponsors the opportunity to interact with their customers. 

The day culminated in a gala evening hosted by Kurz India. The dress code was “Men in Black” and for ladies it was “Glitter” to add shimmer to the vibrant evening started with an amazing 

laser show by special artists. 

After Jitender Pal Singh CEO of Kurz India addressed the gathering, LMAI past president Vivek Kapoor delivered a vote of thanks. 

It was then time for the celebrity performer Asees Kaur to add fun to the entertainment and prompt the delegates to hit the bar and the dance floor enjoying until late in the night or the wee hours of morning.

All good things come to an end, leaving nostalgic memories of fellowship, togetherness, networking, knowledge delivery and entertainment. It was time to go back home with perfect departures arranged so that there are no inconveniences.  This covering of the event would be incomplete without appreciating the amazing venue overlooking lush green hills all around, the weather was fantastic, the hotel staff was hospitable in the true sense of the word. 

The general Manager Vishrut Gupta was always around with his team responding to guests personally and as for the food, kudos to Amitesh Virdi the culinary director and his team who did a wonderful job delivering taste.

The events organizing company led by the beautiful Hemal Bhagwat created precision in every aspect of the stay from arrival to departure. Delegates have been showering praise ever since.

The LMAI board of directors need to congratulate themselves for having created and delivered this mind-boggling big event, bigger and better than the best in the world. The icing on the cake is wonderful appreciations pouring in from delegates and sponsors. It is an encouragement to imagine and plan more for the next conference!

Written by Harveer Sahni, Chairman Weldon Celloplast Limited, New Delhi July 2025

More Images from the conference:

Panel discussion at LMAI conference 2025 at Udaipur

Panel discussion at LMAI conference 2025 at Udaipur

With the evolution of Indian label industry, narrow web label converting has started to expand beyond traditional pressure-sensitive labels to embrace a broad array of diverse applications such as flexible packaging, shrink sleeves, in-mold labels, sachets, wrap-around labels and more. Besides market expansion, these diversifications are not just driven by market demand, but also by an imperative need to implement sustainability across all formats of packaging.

To dwell on the topic LMAI, The Label Manufacturers Association of India has organized a panel discussion titled “Narrow web label converting expanding to diverse applications” during the LMAI conference at Udaipur on the 5th of July 2025. The panel will be moderated by Harveer Sahni, Chairman Weldon Celloplast Limited. Panelists from renowned label converting companies and Kurz, suppliers of global repute include:

 1.      I.V. Stephane Royere

Head of Business Area

Packaging and Print

International Sales and Marketing

LEONHARD KURZ Stiftung & Co. KG

 2.      Manoj Kochhar

Director

Holoflex Limited

 3.      Denver Annunciation

Director – Strategic Initiatives.

Janus International Pvt Ltd

 4.      Priyata Raghavan

Deputy CEO

Sai Packaging Company

 5.      Mehzabin Nair

Managing Director

Skanem India Pvt Ltd

 6.      Hemanth Paruchuri

Director

PRAGATI PACK (INDIA) PRIVATE LIMITED

LMAI Conference themed “Emerging Beyond Boundaries.”

The Label Manufacturers Association of India, LMAI is celebrating their 25 years along with their biennial LMAI Conference themed “Emerging Beyond Boundaries”. The conference is expected to be the biggest ever LMAI event. It is to be held at the Fairmont Udaipur Palace from 3rd to 6th of July 2025. Fairmont Udaipur Palace is an alluring destination to discover the charm of Udaipur, seamlessly blending timelessly tradition with modern elegance, featuring a historic stepwell, one of Rajasthan’s largest ballrooms and exclusive events pool with jacuzzi and amphitheater. Fairmont Udaipur Palace is 45 minutes from the nearest airport and 10 km from Udaipur city center. Nestled in the Aravalli Hills, it offers easy access to the city’s top attractions and cultural landmarks. The LMAI Conference  brings together the entire Indian label fraternity including label converters and leading industry suppliers from within India and from around the world.

LMAI President Rajesh Chadha says, “The event will deliver immense value to the label industry, we endeavor to make it a memorable event.”

The conference is open only to LMAI members of good standing. An extensive list of sponsors includes Kurz India as Platinum sponsors and Avery Dennison as Elite sponsors besides so many others. Over 350 rooms are booked for the conference, the main event will be held at The Fairmont Udaipur Palace, additional rooms are arranged at Hotel Aurika Udaipur. Elaborate transport, transfer, and registration arrangements are put in place. As usual the conference will be a knowledge delivery event with motivational and other speakers, celebrity driven entertainment, panel discussion, multiple networking programs and much more.

Conference Chairmen Manish Desai and Jaideep Singh assure in unison, “We are making sure that it is a well-organized event with all functions and programs running smoothly to precision. We strive to provide satisfaction to delegates.”

Label Manufacturers Association of India
Navi Mumbai, Mob – 8097333995, Email – lmaiorg@gmail.com