Toggle Categories
Get Instant Support
Choose your preferred way to connect with our team
-
Get Free Quote Fill out form for detailed pricing
-
Send Email Detailed inquiry support
-
WhatsApp Quick mobile chat
Response Time
Within 8 hours on working days, 24 hours on holidays
Laboratory Hydraulic Press
Our laboratory presses, for diverse sample preparation and material processing, include Manual or Automatic Laboratory Press, Laboratory Heated Press, Cold Isostatic Press, and Warm Isostatic Press.
Products
Manual Laboratory Hydraulic Pellet Press Lab Hydraulic Press
Item Number : PCMP
Manual Laboratory Hydraulic Press Lab Pellet Press
Item Number : PCF
Lab Manual Microtome Slicer for Tissue Sectioning
Item Number : PT10
Button Battery Sealing Machine for Button Batteries
Item Number : PC2NS
Manual Button Battery Sealing Machine for Battery Sealing
Item Number : PC2N
Laboratory Hydraulic Press Lab Pellet Press Button Battery Press
Item Number : PCBP
Laboratory Hydraulic Split Electric Lab Pellet Press
Item Number : PCES
Laboratory Hydraulic Pellet Press for XRF KBR FTIR Lab Press
Item Number : PCPE
Laboratory Split Manual Heated Hydraulic Press Machine with Hot Plates
Item Number : PCSM
Lab Infrared Press Mold for No Demolding
Item Number : PMI
Split Automatic Heated Hydraulic Press Machine with Heated Plates
Item Number : PCSE
Manual Cold Isostatic Pressing CIP Machine Pellet Press
Item Number : PCIM
Electric Lab Cold Isostatic Press CIP Machine
Item Number : PCIE
Automatic Lab Cold Isostatic Pressing CIP Machine
Item Number : PCIA
Electric Split Lab Cold Isostatic Pressing CIP Machine
Item Number : PCESI
Laboratory Hydraulic Press 2T Lab Pellet Press for KBR FTIR
Item Number : KT-KBP
Lab Infrared Press Mold for Laboratory Applications
Item Number : PMID
REQUEST A QUOTE
Our professional team will reply to you within one business day. Please feel free to contact us!
Related Articles
The Three-Body Problem of Pellet Pressing: Material, Machine, and Method
A systems-thinking approach to lab press issues, focusing on the interplay between material, machine, and method for consistent, reliable results.
The Pressure to Be Perfect: How Hot Isostatic Pressing Achieves Absolute Material Integrity
Explore how Hot Isostatic Pressing (HIP) eliminates internal flaws, bonds materials, and forges perfect density for critical components.
From Powder to Perfection: The Physics of Trustworthy Analysis
Inaccurate lab data often stems from physical chaos in samples. A hydraulic press imposes order, ensuring analysis measures material, not noise.
Beyond Brute Force: The Psychology of Precision in Laboratory Presses
Discover how hydraulic lab presses transform research not just with force, but with precision, reducing cognitive load and ensuring data reproducibility.
The Elegant Trade-Off: Why the C-Frame Press Prioritizes Workflow Over Brute Force
Discover the C-frame press's core philosophy: workflow efficiency. Learn how its open design balances accessibility against high-tonnage rigidity.
The Physics of Patience: Why Hot Isostatic Pressing Trades Speed for Certainty
Hot Isostatic Pressing (HIP) is inherently slow and ill-suited for mass production. This is a deliberate trade-off for achieving perfect material density.
The Unseen Variable: Eliminating Human Error in Material Science with Advanced Press Control
Modern lab presses are not about force, but about eliminating the ultimate variable: the operator. Explore the psychology of process control.
From Powder to Proof: Mastering Material Transformation with Heated Lab Presses
Discover how heated lab presses provide the controlled heat and pressure essential for repeatable sample preparation in spectroscopy and material science.
The Platen's Paradox: Why Bigger Isn't Always Better in Laboratory Presses
Discover the critical relationship between lab press platen size and pressure. Learn why selecting the right size is key to repeatable results.
The Physics of Precision: Why Hydraulic Presses Dominate Where Control Matters Most
Discover why hydraulic presses excel beyond raw power. Learn how their precise control over force makes them essential for complex industrial and lab tasks.
Leverage in Miniature: The Physics and Psychology of the Compact Lab Press
Discover how compact lab presses overcome spatial constraints, blending powerful hydraulics with a design that enhances lab workflow and user focus.
The Alchemy of Pressure and Heat: How Hot Presses Forge the Materials of Tomorrow
Discover how hot press machines use controlled heat and pressure to bond, mold, and densify materials, enabling innovations from plywood to aerospace composites.
Beyond the Upfront Cost: The Quiet Economics of Hot Pressing
Hot pressing overcomes high initial costs via economies of scale, minimizing waste and post-processing for superior ROI in mass production.
The Architecture of Strength: Mastering Material Microstructure with Hot Pressing
Explore how hot pressing provides unparalleled control over microstructure, suppressing grain growth to engineer superior material properties.
The Unseen Architecture of a Pill: Why Heat Engineers Pharmaceutical Trust
Heated lab presses engineer tablets by enhancing particle bonding, ensuring uniform dosage, and controlling drug release for improved safety and efficacy.
Why Your Hot Press Results Are So Inconsistent—And How to Fix It for Good
Stop the frustrating cycle of inconsistent lab results. Discover the hidden cause of failure in hot pressing and how to achieve perfect repeatability.
Closing the Gap: How Hot Pressing Eliminates the Void in Advanced Materials
Discover how hot pressing combines heat and pressure to achieve near-theoretical density, transforming stubborn powders into superior, high-strength materials.
Why Your Hot Press Samples Keep Failing—And Why It's Not Your Fault
Frustrated by inconsistent hot press results? Discover the hidden reason your samples fail and how to achieve perfect, repeatable quality every time.
The Slow Creep of Inaccuracy: Mastering the Hidden Physics of Heated Lab Presses
Lab press maintenance isn't about fixing failures; it's a discipline against the gradual drift into inconsistency that undermines research integrity.
The Unseen Struggle for Density: Why Advanced Materials Demand Hot Pressing
Hot pressing overcomes material resistance to densification, a crucial process for creating pore-free ceramics, metals, and composites.