COMPANY
R&D
R&D
Research and Development Philosophy
Research and Development Philosophy
• Innovation
– Since dental implants directly interact with the human body, even the slightest difference in the product can have a significant impact on clinical outcomes.
– ZEROS utilizes advanced technology to precisely design the screw design, surface treatment, and connection structure.
• State-of-the-art Research Facilities
– In line with global markets and the latest trends in dental technology, we continuously explore new materials and design methods.
• Practicality
– By reflecting the actual needs of dentists and patients, we maximize ease of use and safety.
• Innovation
– Since dental implants directly
interact with the human body,
even the slightest difference in
the product can have a significant
impact on clinical outcomes.
– ZEROS utilizes advanced
technology to precisely design
the screw design, surface
treatment, and connection
structure.
• State-of-the-art Research
Facilities
– In line with global markets and
the latest trends in dental
technology, we continuously
explore new materials and design
methods.
• Practicality
– By reflecting the actual needs of
dentists and patients, we maximize
ease of use and safety.
R&D Team and Facilities
R&D Team and Facilities
• Expert Personnel
– ZEROS operates an R&D team composed of specialized researchers in the fields of biomechanics, material science, and dental clinical practice.
– The researchers possess in-depth expertise in various fields, including implant design, manufacturing technology, surface treatment, and clinical trials.
• State-of-the-art Research Facilities
– 3D Design and Simulation Equipment.
– Surface analysis equipment for applying SLA surface treatment and nanotechnology.
– A precision laboratory for conducting stress tests and fatigue experiments.
• Expert Personnel
– ZEROS operates an R&D team
composed of specialized
researchers in the fields of
biomechanics, material science,
and dental clinical practice.
– The researchers possess in-depth
expertise in various fields,
including implant design,
manufacturing technology,
surface treatment,
and clinical trials.
• State-of-the-art Research
Facilities
– 3D Design and Simulation
Equipment.
– Surface analysis equipment for
applying SLA surface treatment
and nanotechnology.
– A precision laboratory for
conducting stress tests and
fatigue experiments.
Key Research and Development Area
Key Research and Development Area
A. Implant Design
A. Implant Design
• Body Design
– Tapered body design that provides high initial stability in both soft and hard bone.
– Optimization of bone stimulation and stress distribution using macro threads (M2) and micro threads (M3).
• Internal connection structure
– 11º tapered internal hexagonal connection structure, ensuring long-term stability and high connection strength.
• Self-tapping effect
– The cutting edge design is applied to facilitate path correction and self-tapping during implant insertion.
• Body Design
– Tapered body design that
provides high initial stability in
both soft and hard bone.
– Optimization of bone stimulation
and stress distribution using
macro threads (M2) and
micro threads (M3).
• Internal connection structure
– 11º tapered internal hexagonal
connection structure,
ensuring long-term stability and
high connection strength.
• Self-tapping effect
– The cutting edge design is
applied to facilitate path correction
and self-tapping during implant
insertion.
B. Surface treatment technology (SLA surface treatment)
B. Surface treatment technology
(SLA surface treatment)
B. Surface
treatment technology
(SLA surface treatment)
• SLA surface technology
– ZEROS optimizes surface roughness with SLA (Sandblasted with Large grit and Acid-etched) technology, which combines sandblasting and acid cleaning processes.
– Provides 50% larger surface area than RBM surface, maximizing bone fusion rate.
• SLA surface technology
– ZEROS optimizes surface
roughness with SLA
(Sandblasted with Large grit and
Acid-etched) technology, which
combines sandblasting and
acid cleaning processes.
– Provides 50% larger surface
area than RBM surface,
maximizing bone fusion rate.
C. Material Research
C. Material Research
– Biocompatible materials selection
– Clinically safe metallic materials selection
– Biocompatible materials selection
– Clinically safe metallic materials
selection
Stages of the R&D Process
Stages of the R&D Process
1. Design Phase
• 2D design drawings are created, followed by 3D modeling to define the product shape.
• Stress distribution and initial stability are evaluated through simulation.
• 2D design drawings are created,
followed by 3D modeling
to define the product shape.
• Stress distribution
and initial stability are evaluated
through simulation.
2. Prototype Development & Evaluation
2. Prototype Development
& Evaluation
• Prototype samples are manufactured using a process that is suitable for the product design purpose.
• Performance and stability evaluation suitable for product design purposes
• Prototype samples are
manufactured using a process
that is suitable for the product design
purpose.
• Performance and stability
evaluation suitable for
product design purposes
3. Clinical data Analysis
3. Clinical data Analysis
– Collect, analyze, and evaluate clinical data generated in clinical fields.
– Collect, analyze, and evaluate
clinical data generated in
clinical fields.
4. R&D Futures
4. R&D Futures
– Continuous networking with implant professionals and researchers working in Korea and abroad
– Analysis of the latest clinical trends and application of R&D items through participation and monitoring of domestic and overseas academic conferences
– Exploration and development of next-generation dental implant systems, dental materials, and medical device materials
– Continuous networking with
implant professionals and
researchers working in Korea and
abroad
– Analysis of the latest clinical
trends and application of
R&D items through participation
and monitoring of domestic
and overseas academic
conferences
– Exploration and development of
next-generation dental implant
systems, dental materials, and
medical device materials