This strategic program provides top management professionals in the coloration industry with a comprehensive understanding of the role of effective color management in achieving organizational success. Participants will gain insights into the business impact of color, explore color management strategies from a strategic perspective, and develop frameworks for implementation.
Effective Color Management For Top Management In Coloration Industry
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- Effective Color Management For Top Management In Coloration Industry
Effective Color Management For Top Management In Coloration Industry
Description
Benifits
- Offer top management professionals in the coloration industry a strategic perspective on effective color management for organizational success.
- Understand the importance of color management and its impact on business objectives.
- Develop effective color management strategies aligned with organizational goals.
- Implement color management systems and processes that drive efficiency and profitability.
- Lead and support a culture of color excellence within the organization.
Course Instructor
Engr. Md. Fakhrul Islam CCol ASDC
Chartered Colorist (UK); Textile Color Management Specialist | Dyeing and Finishing Professional | Associates of Society of Dyers & Colorist (SDC-UK), CLSSBB (PQLS-India), PGDTM (SEIP), MBA in Textiles (BUTEX), B. Sc In Textile Engineering (Coloration)
- 250+ people are doing the course
- It will take 15 hours
- 10 Videos Lectures
- 10 Class Materials
- 10 Quiz Tests
- 2 Written Tests
Course Content
Leave-1
PART 1: BASIC PRINCIPLE OF COLOR SCIENCE
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- Introduction to color as a sensory experience perceived by the eye and processed by the brain.
- Explanation of white light and how it consists of seven colors.
- Understanding why the sea appears blue and why an apple appears red.
- Introduction to the two types of photoreceptors in the retina: rods and cones.
- Explanation how appearance and background change color vision.
PART 2: COLOR CLASSIFICATION SYSTEM
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- Discussion on the challenges of naming colors.
- Explanation of how colors are defined and organized based on hue, chroma, and lightness.
- Introduction to the color palette and criteria for creating a color palette.
- Overview of the Natural Color System (NCS) and the Munsell color classification system.
- Introduction to the Farnsworth-Munsell 100 Hue Test and the Pantone color system.
PART 3: THREE ELEMENTS OF COLOR (Light)
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- Explanation of the three elements of color perception: light source, observer, and object.
- Discovery of how white light can be split into different colors using a prism.
- Understanding the electromagnetic spectrum and different types of light sources.
- Explanation of daylight and its color temperature variations.
- Introduction to standard light sources and the concept of color temperature.
- Differentiating between lumen and lux measurements.
- Overview of the Color Rendering Index (CRI) and different types of light sources.
PART 4: THREE ELEMENTS OF COLOR (Object & Observer)
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- Understanding how the color and appearance of an object are determined by the reflection and absorption of light.
- Explanation of the reflection and absorption of light and their impact on object color.
- Overview of the human eye as the observer and the role of cones in color vision.
- Introduction to the RGB color model
- Discussion on the opponent process theory and its application.
PART 5: STANDARD OBSERVATION & METAMERSIM
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- Introduction to the International Commission on Illumination (CIE) and its role in standardizing light, illumination, color, and color spaces.
- Overview of the standard observer and illuminant in color measurement.
- Explanation of standard viewing conditions and guidelines for consistent color evaluation.
- Introduction to the additive and subtractive color models.
- Explanation of metamerism and its occurrence when colors appear differently under different light sources.
- Differentiating between achromatic and chromatic colors.
Leave-2
PART 1: THE COLOR SPACES, COLOR DISTANCE EQUATIONS
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- Definition of color space and its role in representing colors.
- Introduction to the CIELAB, CIELCH color spaces, and its parameters.
- Explanation of color deviation and color differences in the CIELAB color space.
- Overview of color distances and the Delta E (ΔE) value.
L-2, PART 2: THE CMC, COLOR MEASUREMENT COMMITTEE
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- Explanation of the limitations of the CIE76 color distance formula.
- Introduction to the CMC color distance equation and its improvements over CIE76.
- Introduction to the CMC formula and its use in calculating color differences.
- Application of CMC DE (2:1) in the textile industry for color difference evaluation.
- Advantages of CMC Equation, Agreement
L-2, PART 3: SPECTROPHOTOMETER – SOFTWARE INTERFACES
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- Utilizing software interfaces for quality control purposes, including color coordinate recording, color distance evaluation, pass/fail decision-making, etc.
- Managing data, importing/exporting color values, and evaluating metamerism, whiteness, brightness, opacity, and color fastness.
- Exploring software interfaces for formulation tasks, such as recipe formation, database management, recipe calculation, etc.
- Evaluating and adjusting color recipes, archiving color shades, and assessing recipe performance and cost.
- Importance of proper sample preparation and presentation for accurate color measurement.
L-2, PART 4: COLOR TOLERANCES AND ACCEPTABILITY
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- Understanding the need for color measurement and consistency in industries.
- Differentiating between perception, acceptability, and color tolerances.
- Considering process capability and customer requirements in establishing color tolerances.
- Setting pass/fail limits and exploring DE*, Lab*, LCH*, and CMC tolerances.
- Explaining the meaning and determination of color tolerances using visual quadrant comparisons.
L-2, PART 5: COLOR STRENGTH AND TRIANGLE SELECTION
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- Color strength (K/S) measures the depth of color based on spectral data and the wavelength of maximum absorption (Lambda Max).
- The Kubelka-Munk equation calculates color strength (K/S) based on absorption and scattering coefficients.
- The standard depth of dyestuff is the highest chroma value at a specific depth.
- Gamut analysis aids in triangle selection for color formulation, considering factors like area size, chroma movement, metamerism, and dye selection.
