April 17, 2024

Laboratory Sieve Shaker Market Is Capturing Opportunities From Automated Sieving Functionality

The laboratory sieve shaker market has emerged as an integral part of sample preparation procedures across various industries such as construction, mining, chemical, pharmaceutical, food & beverages, and agriculture. Laboratory sieve shakers are mechanical devices used for sieving and separating granular materials and powders based on particle sizes. These shakers provide automated sieving with precise control over parameters like amplitude, frequency, sieving time, and temperature.

The Global Laboratory Sieve Shaker Market is estimated to be valued at Us$ 4.04 Billion in 2024 and is expected to exhibit a CAGR Of 12% over the forecast period 2024 To 2030.

Key Takeaways

Key players operating in the Laboratory Sieve Shaker Market are L’Oréal, Estée Lauder Companies, Procter & Gamble, Shiseido, Beiersdorf, Coty, Unilever, Avon Products, Johnson & Johnson, Natura & Co. Sieve shakers find wide usage in various industries for testing aggregates, soils, chemicals, pharmaceutical ingredients and finished drugs, cereals, flours, and other food grains. The growing research culture and stringent industrial standards are fueling demand for laboratory equipment including sieve shakers. Rapid industrialization and urbanization in emerging economies are also driving the need for standardized materials testing using sieve shakers.

Key players in the global Laboratory Sieve Shaker Market are focused on expanding their geographic presence through partnerships and mergers & acquisitions. For instance, in 2022, L’Oréal acquired Youth to the People, a US-based clean beauty brand. Shiseido acquired Drunk Elephant, a leading skincare brand known for clean formulas. The growing investments in Research & Development are also spurring innovations in laboratory equipment like sieve shakers. Manufacturers are leveraging technological advancements to introduce automated, high throughput sieve shakers with touchscreen interfaces and data tracking capabilities.

Market key trends

One of the key trends gaining traction in the Laboratory Sieve Shaker Market is the increasing automation. Leading manufacturers are focused on integrating advanced technologies like sensors, touchscreens, data tracking software into sieve shakers to provide automated sieving capabilities. The automated sieve shakers minimize manual errors, enhance consistency and reproducibility of results. They can be programmed to achieve complex sieve analysis with precise control over multiple parameters like amplitude, frequency and sieve time. The automated shakers are thereby improving productivity and reducing time required for sieving tasks. This trend towards automation is expected to accelerate the Laboratory Sieve Shaker Market expansion over the forecast period.

Porter’s Analysis

Threat of new entrants: Low capital requirement and established distribution channels lower entry barriers.

Bargaining power of buyers: Large industrial buyers can negotiate lower prices due to significant purchase volumes.

Bargaining power of suppliers: Suppliers of shaker components like screens and frames have some pricing power due to lack of substitute options.

Threat of new substitutes: Technological innovations such as wet separation systems pose minimal threat currently.

Competitive rivalry: Intense competition exists among established global players and local manufacturers offering varied shaking mechanisms.

Geographical Regions

North America currently holds the largest market share in terms of value primarily owing to extensive industries like chemical, mining, pharmaceuticals, and food where sieves find widespread utility. The Asia Pacific region is expected to witness the fastest growth over the forecast period. Rapid industrialization combined with inexpensive local manufacturing is boosting adoption of laboratory sieve shakers across China, India, and other developing Asian economies.

Note:
1. Source: Coherent Market Insights, Public sources, Desk research
2. We have leveraged AI tools to mine information and compile it