The Design Guide File for the Box A Comprehensive Guide

June 2, 2025May 29, 2024 by Hampton

The design guide file for the box is your blueprint for flawless box production. It’s more than just a document; it’s a roadmap detailing every aspect, from initial concept to final product. This guide delves into the critical elements needed for successful box design, covering everything from material selection to technical specifications, and ultimately ensuring your boxes are not just beautiful, but also functional and efficient to manufacture.

Imagine a perfectly crafted box, meeting all your specifications and seamlessly integrating with your packaging machinery. The design guide file for the box is the key to unlocking this vision. This detailed document acts as a crucial communication bridge between design and production teams, preventing misunderstandings and ensuring the box meets its intended purpose. From the initial sketch to the final product, this guide is your trusted companion.

Table of Contents

Introduction to the Design Guide File

A design guide file for a box is a crucial document that serves as a blueprint for the entire production process. It’s essentially a comprehensive set of instructions and specifications, ensuring consistency and quality throughout the manufacturing journey. Think of it as the architect’s plans for a box, outlining everything from its size and shape to the materials used and the printing process.

This meticulous document prevents costly errors and ensures a smooth, efficient workflow.This document is vital because it acts as a single source of truth for everyone involved in the project, from the designer to the printer to the shipper. A well-defined design guide translates into a product that accurately reflects the brand and meets the customer’s expectations. It minimizes misunderstandings, guarantees that all components of the box are compatible, and ultimately, saves time and resources.

Purpose and Importance

The primary purpose of a design guide is to standardize the design and production of boxes, ensuring consistency in appearance and function. This meticulous approach guarantees that every box produced aligns with the brand’s identity and meets the specified requirements. This consistency streamlines the production process, reduces errors, and maintains a high level of quality control. A clear design guide prevents costly mistakes during manufacturing, minimizes delays, and ultimately, increases profitability.

Common Sections and Elements

A comprehensive design guide typically includes several key sections:

Box Specifications: This section details the precise dimensions, materials, and finishes of the box. It covers aspects like the box’s overall size, shape, and the material type (cardboard, corrugated, etc.). Measurements are critical and must be accurate to ensure the box can be manufactured efficiently and correctly. This is where precise tolerances and specific dimensions of the box are documented.
Artwork and Branding: This section meticulously Artikels the logo placement, color palettes, and imagery specifications. It ensures that all branding elements are consistently applied across all boxes, reflecting the brand’s identity effectively. This includes details on fonts, sizes, and specific colors, and may even incorporate brand guidelines.
Manufacturing Specifications: This crucial section provides detailed instructions on the printing process, including the type of ink, paper stock, and printing techniques. It specifies the exact finishing processes, like embossing or debossing, and any particular printing requirements.
Assembly Instructions: This section details the precise steps for assembling the box. Illustrations and diagrams are often used to ensure that all personnel involved understand the assembly procedure. This prevents assembly errors and ensures the box meets structural integrity requirements.
Packaging and Shipping Information: This includes information about the packaging materials used for shipping and handling the boxes. This section considers the requirements for cushioning and protecting the contents during transit.

Differentiation from Other Design Documents

While design documents for boxes might share some common ground, a design guide distinguishes itself by its focus on production. It goes beyond aesthetics to detail the practical aspects of manufacturing. Other design documents might concentrate on the visual identity of the box, but a design guide focuses on the practical, manufacturing-oriented aspects. This ensures that the design is feasible and can be effectively translated into a tangible product.

The design guide is the operational manual, while other documents might focus on the conceptual or visual elements.

Content and Structure of the Design Guide

A well-crafted design guide is your compass for creating boxes that are not only aesthetically pleasing but also functionally sound. This guide serves as a blueprint, ensuring consistency and quality across all box designs. It’s a critical tool for streamlining the production process and guaranteeing that every box meets the highest standards.This section dives deep into the structure and content of a comprehensive design guide.

We’ll explore the essential elements, providing clear examples and a structured layout. It’s all about ensuring your boxes are not just pretty, but perfectly packaged.

Typical Content of a Design Guide

A robust design guide goes beyond simple dimensions. It should encompass all crucial information from concept to production. This ensures that everyone involved—designers, manufacturers, and marketers—is on the same page, preventing costly errors and delays.

Specifications and Examples

The design guide should include specific details. These could cover everything from the chosen material to the required printing process. Consider these examples:

Material type: Corrugated cardboard, Kraft paper, or custom-made composite board. This will determine the overall sturdiness and cost of the box.
Printing specifications: Color palette, logo placement, and font choices. These ensure brand consistency and attract attention.
Finishing options: Varnishing, embossing, or spot UV. These add a touch of elegance and protection to the box.
Assembly instructions: Detailed diagrams and step-by-step procedures for the manufacturing process. This will be critical for ensuring efficient and consistent assembly.

Logical Section Organization

A well-organized design guide is essential for quick reference and easy understanding. The sections should flow logically, building upon each other.

Introduction: This section sets the stage, outlining the project’s goals and the box’s intended purpose. It establishes the context for all subsequent sections.
Design Overview: This section presents the overall design concept, including aesthetic considerations, target audience, and brand identity. Visual representations like sketches or mockups are often included here.
Technical Specifications: This section details the technical aspects, such as dimensions, materials, and manufacturing processes. It ensures that the box can withstand the intended stresses and transportation requirements.
Production Requirements: This section covers the necessary steps for manufacturing, including printing, cutting, and assembly. It will guide the production team in delivering the highest quality boxes.
Quality Control: This section defines the standards for inspecting and evaluating the boxes during the manufacturing process. It’s crucial for maintaining consistency and addressing potential issues early on.

Types of Dimensions and Measurements

Precise measurements are paramount for successful box production. This section will cover various types of measurements, ensuring accurate replication and avoiding costly errors.

External Dimensions: These measurements describe the overall size of the box, encompassing length, width, and height. They’re critical for determining the box’s volume and for shipping calculations.
Internal Dimensions: These measurements define the space inside the box, crucial for determining how much the product will fit. This ensures the product is snugly packed and protected during shipping.
Material Thickness: This measurement refers to the thickness of the cardboard or other materials used to create the box. This value will impact the box’s strength and rigidity.
Tolerances: These measurements represent the acceptable deviations from the specified dimensions. This is crucial for manufacturing tolerances, ensuring that boxes can be assembled consistently.

Typical Design Guide Structure

This table Artikels a typical structure for a design guide, highlighting key elements.

Section	Description	Specifications	Example
Introduction	Project overview, purpose, and context.	Project name, target audience, intended use.	Project: “XYZ Gift Box,” Target audience: Young adults, Intended use: Gift packaging.
Design Overview	Visual concept and aesthetic details.	Color palette, materials, logo placement.	Color palette: Red, blue, and white; Material: Kraft paper; Logo: Centered on the front panel.
Technical Specifications	Detailed dimensions and material properties.	External dimensions, internal dimensions, material thickness.	External dimensions: 10cm x 15cm x 5cm; Internal dimensions: 9cm x 14cm x 4cm; Material thickness: 0.5mm.
Production Requirements	Instructions for manufacturing.	Printing method, cutting techniques, assembly steps.	Printing method: Offset printing; Cutting techniques: Die-cutting; Assembly steps: Gluing.

Design Considerations in the File: The Design Guide File For The Box

Crafting the perfect box isn’t just about aesthetics; it’s about a harmonious blend of form, function, and responsibility. This section delves into the critical choices that underpin a well-designed box, from the materials used to the structural integrity. Understanding these considerations empowers you to create boxes that not only look great but also perform admirably and respect the environment.

Material Selection for Box Design

Material selection is paramount. The right material ensures the box fulfills its intended purpose, withstands anticipated stresses, and reflects the brand’s image. Choosing the appropriate material isn’t just about cost; it’s about understanding the trade-offs between properties like durability, sustainability, and cost-effectiveness.

Different materials exhibit varied properties. Cardboard, for instance, is lightweight and readily available, making it an economical choice. However, its strength can be limited, necessitating careful consideration of the box’s intended use. Corrugated cardboard, a sturdier alternative, enhances the box’s ability to withstand shipping stress, while offering excellent protection for the contents.
Plastics offer a wide range of options, from lightweight and flexible materials to rigid, durable ones. This versatility allows for a diverse range of box designs, from packaging for delicate items to heavy-duty industrial containers. However, the environmental impact of plastics necessitates careful consideration, prompting the exploration of sustainable alternatives.
Sustainable materials, like recycled paper or wood pulp, are increasingly popular. Their inherent environmental benefits are compelling, aligning with modern consumer preferences. These materials can provide a similar level of functionality as traditional options while promoting eco-consciousness.

Types of Materials Used in Box Production

Understanding the characteristics of various materials is crucial. The properties of each material dictate its suitability for different applications and impact the overall box design.

Material	Properties	Suitability
Cardboard	Lightweight, readily available, moderate strength	Shipping, packaging of lighter items
Corrugated Cardboard	Stronger than cardboard, excellent protection	Shipping, packaging of heavier items
Plastics	Versatile, lightweight to heavy-duty, waterproof	Food packaging, industrial containers, protective packaging
Recycled Paper	Environmentally friendly, moderate strength	Packaging for various products, focusing on sustainability

Environmental Impact of Material Choice

Considering the environmental footprint of materials is increasingly vital. Sustainable practices are not just trends; they’re a fundamental aspect of responsible design. Choosing materials with a lower carbon footprint minimizes the environmental impact associated with the entire production process.

The manufacturing process of some materials generates significant pollution. Carefully evaluating the lifecycle of different materials allows for informed decisions that reduce the environmental burden.
Recycling and reuse are important considerations. Materials that can be easily recycled or reused contribute to a circular economy, reducing waste and conserving resources.
Consider the source of raw materials and their impact on local communities. Ethical sourcing promotes responsible practices that benefit the wider community.

Box Construction Methods and Design Implications

The chosen construction method profoundly influences the box’s structural integrity and aesthetic appeal. Understanding the implications of different methods allows for effective design solutions.

Glued construction is often economical but may not offer the same level of strength as other methods. The method’s suitability depends on the intended use and the type of materials used.
Stapled construction provides a strong and secure connection between panels, but the staples can be visible, affecting the aesthetic appeal. Visibility of the staples is a critical consideration in design.
Folding and interlocking techniques allow for intricate designs and potentially enhanced strength. The design choices in these methods will heavily influence the final product.

Aesthetic Appeal in Box Design

The aesthetic appeal of a box is not just about visual appeal; it’s a crucial element in branding and consumer perception. The box design plays a vital role in communicating the brand’s identity.

Color palettes, typography, and imagery directly communicate brand identity. Effective use of these elements ensures the box resonates with the target audience.
Consider the box’s intended use. A box for a delicate item needs a different aesthetic approach compared to a box for a rugged product.
Trends in packaging design can influence the design. Staying informed about current trends provides an advantage in creating boxes that capture the attention of consumers.

Examples of Different Box Styles and Their Design Implications

Different box styles reflect specific needs and preferences. Understanding the implications of each style ensures that the design aligns with the intended use and target audience.

A simple, minimalist box design conveys a sense of sophistication and modernism, often used for high-end products.
A bold, colorful box design can attract attention and evoke excitement, often used for children’s products or promotional items.
A box with a unique shape can enhance the product’s distinctiveness, making it stand out on shelves.

Technical Specifications in the File

Getting the box dimensions right is crucial for smooth operations and efficient packaging. Precise measurements are not just about aesthetics; they directly impact the cost-effectiveness and overall success of your packaging process. This section dives deep into the vital technical specifications needed for designing a robust and reliable box.

Precise Measurements: The Cornerstone of Box Design

Accurate measurements are paramount in box design. They ensure that the box fits the product perfectly, minimizing wasted space and maximizing efficiency. This, in turn, translates to reduced material costs and improved profitability. Consider the impact of even a small error in dimensions. A slightly oversized box could result in excess material, while an undersized box could lead to product damage during transit.

Precise measurements are essential to maintain a consistent, high-quality packaging process.

Ensuring Compatibility with Packaging Machinery

Compatibility with packaging machinery is critical for streamlining the entire process. Incorporating specific specifications helps to guarantee seamless integration with your existing equipment. A box that is too large or too small for your machinery could lead to production delays and inefficiencies. By adhering to the exact specifications, you ensure smooth and uninterrupted operations, preventing costly downtime.

Tolerances for Box Components

Tolerances for various box components are vital for maintaining consistency and quality. Different materials and manufacturing processes have inherent tolerances. Understanding these tolerances is essential for ensuring that boxes meet quality standards and perform optimally. For example, a ±1 mm tolerance on the box height might be acceptable for a particular application, while a tighter tolerance might be required for a delicate product.

Key Technical Specifications

Specification	Unit	Value	Description
Box Length	mm	250	The overall length of the box.
Box Width	mm	150	The overall width of the box.
Box Height	mm	100	The overall height of the box.
Material Thickness	mm	0.5	Thickness of the cardboard material.
Gluing Tolerance	mm	±0.2	Allowed variation in the gluing process.
Printing Tolerance	mm	±0.1	Variation in printing position.
Corrugated Board Type	–	Single Wall	The type of corrugated board used.

Manufacturing Processes and the Guide

This section delves into the crucial role of the design guide in streamlining the manufacturing process for our boxes. A well-crafted guide acts as a roadmap, ensuring consistency, efficiency, and quality throughout the production journey. It’s more than just a set of instructions; it’s a collaborative tool fostering a strong connection between design and production.This guide serves as the single source of truth for all things box-related.

It provides a crystal-clear picture of the intended product, enabling the manufacturing team to execute the design flawlessly. From material selection to final assembly, the guide is their trusted companion, reducing errors and maximizing efficiency.

Influence on Manufacturing Processes

The design guide profoundly impacts the manufacturing process. A comprehensive guide ensures that the production team understands the design intent and the desired outcome. This understanding is key to accurate material procurement, precise tooling adjustments, and adherence to critical dimensions. The guide is a language bridging the gap between creative vision and physical reality. Detailed specifications and clear visuals translate the design into tangible actions.

Stages of Box Production and Guide Support

The box production process typically involves several key stages. The design guide acts as a crucial support system throughout these stages, ensuring seamless transitions.

Material Procurement: The guide specifies the type, quantity, and required properties of the materials needed for the box. This detailed information allows for efficient and accurate sourcing, reducing material waste and potential delays. A precise material selection ensures the final box meets both the structural and aesthetic requirements.
Tooling Preparation: The design guide provides critical dimensions, ensuring the tooling setup matches the design specifications. Accurate tooling guarantees consistent box shapes and sizes, contributing to the final quality and efficiency of the production line.
Assembly and Finishing: The guide provides clear instructions on assembly procedures, including the sequence of operations, gluing methods, and any necessary finishing touches. Detailed step-by-step instructions, supported by visual aids, minimize errors and ensure consistent quality across all boxes.

Quality Control During Production

The design guide is integral to quality control. By meticulously defining standards and expectations, the guide establishes a benchmark for assessing the quality of each box produced. The guide’s detailed specifications enable consistent monitoring and identification of deviations from the design intent.

Inspection Points: The guide Artikels key inspection points at various stages of the production process. This ensures that each box meets the specified quality standards. Clear visual aids and detailed measurement tolerances facilitate effective quality checks.
Deviation Management: The guide lays out procedures for handling any deviations from the design specifications. This proactive approach ensures that any issues are addressed promptly and effectively, minimizing potential defects.

Steps in Producing the Box from the Guide

A well-structured guide breaks down the production process into manageable steps. These steps act as a detailed instruction manual, guiding the production team from start to finish.

Material Selection: The guide clearly defines the required material type, dimensions, and tolerances. This ensures that the right materials are procured and ready for use.
Tooling Setup: Detailed instructions and precise measurements ensure the equipment is set up according to the design specifications. This step ensures the consistency of the final product.
Assembly Process: Step-by-step instructions, illustrated diagrams, and clear specifications guide the assembly process, ensuring that each box is created according to the design.
Quality Checks: Detailed inspection points are Artikeld, ensuring that each box adheres to the defined quality standards. This proactive approach helps to avoid costly errors and customer dissatisfaction.

Communication Between Design and Production Teams

Effective communication is paramount for successful box production. The design guide acts as a vital communication bridge between the design and production teams. This seamless communication minimizes misinterpretations, ensures alignment, and streamlines the entire process.

Open Dialogue: The guide encourages open communication channels between design and production. This facilitates a collaborative environment, addressing potential issues early on.
Regular Feedback: The guide fosters regular feedback loops between the teams, enabling continuous improvement and addressing any concerns that may arise during the production process.

Illustrative Examples and Case Studies

Unlocking the potential of your box designs starts with a clear and comprehensive design guide. This section provides concrete examples and case studies, showcasing how well-structured guides can lead to streamlined production and innovative box designs. We’ll delve into practical applications, highlighting the importance of visual aids and the measurable impact of well-crafted documentation.

A Comprehensive Example: The “Eco-Chic” Gift Box

This example showcases a design guide for a sustainable gift box, emphasizing eco-friendly materials and minimal waste. The guide meticulously Artikels the entire process, from concept to production. It incorporates detailed technical specifications, such as material thickness, print requirements, and assembly instructions. Furthermore, the guide includes illustrative diagrams, clearly outlining the different stages of construction, enabling efficient communication and seamless implementation.

A key element is the detailed cost analysis, helping stakeholders make informed decisions and manage resources effectively. This detailed example demonstrates the practical application of a robust design guide.

Different Box Designs and Their Guides

Different box types necessitate different design guides. For instance, a custom-designed jewelry box would require a guide that prioritizes precision in construction and material selection, with a focus on showcasing the intricate details of the design. Conversely, a sturdy corrugated box for shipping would emphasize structural integrity, durability, and cost-effectiveness. The guide for this box would highlight appropriate materials, assembly techniques, and stress points for maximum protection during transit.

Visual Representation in Design Guides

Visual aids are critical for clarity and comprehension in design guides. High-quality 2D and 3D renderings, alongside detailed exploded views of the box, are invaluable. These visuals aid in understanding the box’s form, function, and assembly, enabling seamless communication between designers, engineers, and production teams. Detailed diagrams of the various stages of the assembly process are especially useful in reducing production errors and accelerating workflow.

Improved Production Efficiency

A well-defined design guide significantly streamlines the production process. For instance, in a case study involving a high-volume order of custom-designed boxes, a comprehensive design guide reduced assembly time by 20%. This efficiency gain translates directly to cost savings and quicker time to market.

Benefits for Various Box Types

The benefits of using design guides extend to all box types. A food-grade box, for instance, would require a guide that meticulously details the materials’ compatibility with food products and adheres to stringent safety regulations. This guide would contain information on material selection, labeling requirements, and potential hazards to prevent contamination. A custom-made box for a unique product would necessitate a guide that provides detailed specifications for the specific design, material selection, and assembly.

This guide ensures consistency and minimizes errors during production.

Best Practices and Guidelines

Crafting a design guide is more than just a collection of specifications; it’s a roadmap for success, ensuring everyone is on the same page. A well-structured guide streamlines the entire process, from initial concept to final product. It’s a living document, reflecting the evolution of the project and maintaining clarity throughout.

Essential Practices for a Design Guide

A robust design guide must adhere to best practices, establishing clear communication channels and procedures. This ensures that everyone involved understands the design principles, specifications, and the overall vision. This reduces errors and promotes consistent execution.

Clear and Concise Language: Use precise language, avoiding ambiguity. Technical terms should be clearly defined, and jargon should be minimized. Visual aids, like diagrams and sketches, are powerful tools for clarity.
Comprehensive Coverage: The guide should cover all critical aspects of the design, from materials and dimensions to assembly instructions and aesthetic considerations. Thoroughness prevents misunderstandings and potential issues during manufacturing.
Maintain Accuracy: Regular reviews and updates are vital. This ensures the guide accurately reflects the latest design decisions, changes, and specifications. A dedicated person or team should oversee this process to maintain the integrity of the document.

Communication and Collaboration in Design Guides

Effective communication is the cornerstone of any successful design project. A design guide is a powerful tool to ensure that everyone involved understands the project’s objectives and parameters. Establish a system for feedback and questions to ensure that any concerns are addressed promptly.

Establish Communication Channels: Establish clear communication channels between design teams, engineering, and manufacturing. Regular meetings, shared online platforms, and dedicated communication channels are key.
Encourage Feedback: Actively solicit feedback from all stakeholders. This allows for continuous improvement and adaptation throughout the project. Design review sessions are invaluable for ensuring alignment.
Version Control: Implement a system to track revisions, ensuring that everyone has access to the latest version of the guide. This prevents confusion and discrepancies. A version history is essential.

Maintaining Accuracy Throughout the Project

Accuracy is paramount in a design guide. Maintaining accuracy throughout the project lifecycle ensures the project remains on track and avoids costly errors.

Regular Review Cycles: Implement regular review cycles for the guide. This allows for the identification and resolution of discrepancies or inconsistencies before they escalate. A monthly review is often a good frequency.
Dedicated Reviewer: Assign a dedicated reviewer to oversee the accuracy and consistency of the guide. This person ensures the guide remains a reliable reference throughout the project.
Document Changes: Each change to the design guide should be clearly documented, with a detailed explanation of the reason for the change. This fosters transparency and accountability.

Managing Revisions and Updates

Managing revisions is crucial to keeping the design guide up-to-date and consistent. A well-defined process minimizes errors and maintains the integrity of the design specifications.

Establish a Revision System: Implement a clear revision control system. Use version numbers, dates, and detailed descriptions of changes for each revision.
Documentation of Changes: Document all changes thoroughly. Include the date of the change, the reason for the change, and the person responsible for the change.
Distribution of Updates: Distribute updates promptly to all relevant parties. Establish clear procedures for notification and dissemination.

A Step-by-Step Guide to Developing a Design Guide, The design guide file for the box

Developing a comprehensive design guide is a process that requires careful planning and execution. Following a structured approach is essential to ensure a well-defined and comprehensive document.

Define Scope: Clearly Artikel the scope of the design guide. Determine which aspects of the design will be covered.
Gather Information: Collect all necessary information, specifications, and data related to the design. This includes technical drawings, material properties, and manufacturing processes.
Organize and Structure: Organize the information logically and consistently. Use clear headings, subheadings, and visuals to improve readability.
Review and Feedback: Conduct a thorough review of the guide and solicit feedback from all stakeholders. Iterate based on feedback.
Finalization and Dissemination: Finalize the guide and distribute it to all relevant parties. Establish procedures for maintaining the guide throughout the project lifecycle.

Tools and Technologies for Creating the Guide

Crafting a comprehensive design guide requires the right tools. Choosing the right software and digital resources can significantly streamline the process, ensuring accuracy and clarity in the final document. A well-designed guide is not just a collection of information; it’s a powerful communication tool that facilitates understanding and efficient collaboration.

Software Tools for Design Guide Creation

Various software tools cater to different needs in design guide creation. Professional design software like Adobe InDesign or Figma offers robust capabilities for layout, typography, and image manipulation. These programs allow for the creation of visually appealing and highly detailed design guides. Alternatively, dedicated document creation software like Microsoft Word or Google Docs are suitable for simpler guides, particularly if a focus is on text-based information and formatting.

The choice depends heavily on the complexity and scope of the design guide.

Benefits of Digital Tools

Digital tools offer numerous advantages over traditional methods. They enhance collaboration by allowing multiple team members to access and edit the guide simultaneously. Version control is easily managed, ensuring everyone works with the most up-to-date version. Digital tools facilitate efficient revisions and updates, which is crucial in dynamic design environments. Real-time feedback and iterative improvements are possible, leading to a more polished and user-friendly final product.

Online Resources for Design Guide Creation

Numerous online resources provide templates, examples, and helpful tools for design guide creation. Websites dedicated to design and graphic resources offer valuable templates and examples for various guide types. These resources can save time and effort by providing pre-formatted structures and design elements. Online libraries and communities dedicated to design can provide additional insights and support. Seeking feedback and discussing challenges with peers within online communities can prove invaluable.

Importance of File Formats

Choosing the right file format is crucial for seamless collaboration and accessibility. Formats like PDF ensure the guide’s consistent appearance across different platforms and devices. This format maintains the original layout and formatting, regardless of the reader’s software or hardware. Additionally, using formats compatible with various software platforms enables easy sharing and collaboration within the team. This accessibility is critical to ensuring the design guide’s effectiveness and utility.

Comparison of Software Tools

A comparison of popular software tools reveals key differences in their capabilities. Adobe InDesign excels at complex layouts, typography, and high-quality image integration. Figma offers a collaborative environment with real-time editing, making it ideal for teamwork. Microsoft Word is a versatile tool for simpler documents, emphasizing text-based information and formatting. Choosing the right tool depends on the specific needs of the design guide and the available resources.

Software	Strengths	Weaknesses
Adobe InDesign	Complex layouts, typography, high-quality images	Steeper learning curve, can be resource-intensive
Figma	Real-time collaboration, vector graphics, prototyping	Limited for very complex print layouts
Microsoft Word	Ease of use, wide compatibility	Limited layout and graphic design options