В разработке продукта, прототипы и first samples (first articles) are two critical stages that bridge design concepts to mass production—but they are often confused. While both serve verification purposes, their goals, процессы, and applications differ significantly. This article breaks down their definitions, key differences, рабочие процессы, and real-world uses to help teams use them effectively.
1. What Exactly Are Prototypes and First Samples?
To avoid confusion, let’s start with clear, industry-standard definitions and core characteristics of each.
1.1 Прототипы
А прототип is a preliminary model built to test a product’s design, структура, функция, или внешний вид. It helps identify flaws early in the design phase before investing in mass production tools.
| Характеристика | Подробности |
| Основная цель | Проверьте осуществимость дизайна, Функциональность теста, and confirm appearance alignment with requirements. |
| Материалы | Flexible—chosen based on testing needs (НАПРИМЕР., 3D-printed plastic, CNC-machined aluminum alloy, смола). |
| Количество | Typically 1–3 units (enough for testing or stakeholder demos). |
| Производственный процесс | Быстрые методы прототипирования (3D Печать, Обработка с ЧПУ, Изготовление листового металла) or manual crafting. |
| Точность | Close to mass production standards but allows small tolerances (НАПРИМЕР., ±0.1mm to ±0.5mm). |
1.2 First Samples (First Articles)
А first sample is the first batch of products made using mass production tools and processes (НАПРИМЕР., Инъекционные формы, die-casting machines). It validates whether production workflows can consistently meet quality standards.
| Характеристика | Подробности |
| Основная цель | Test mass production processes, формы, оборудование, and quality control systems for consistency. |
| Материалы | Identical to mass-produced products (НАПРИМЕР., injection-molded ABS plastic, die-cast zinc alloy). |
| Количество | Usually 1–5 units (sufficient for process validation and certification). |
| Производственный процесс | Uses mass production techniques (Инъекционное формование, умирать кастинг, штамповка, сварка). |
| Точность | Fully meets mass production tolerance requirements (НАПРИМЕР., ±0.05mm to ±0.1mm). |
2. What Are the Key Differences Between Prototypes and First Samples?
Understanding these differences is critical to avoiding costly mistakes—such as using a prototype to validate production processes. The table below highlights their core distinctions:
| Коэффициент сравнения | Прототипы | First Samples |
| Primary Objective | Проверять дизайн (появление, структура, функция). | Проверять production processes (формы, оборудование, Контроль качества). |
| Выбор материала | Diverse (depends on testing needs, not final production materials). | Identical to final mass-produced products. |
| Производственный метод | Быстрое прототипирование (no mass production molds/tools). | Mass production processes (uses final molds/tools). |
| Количество | 1–3 units. | 1–5 единицы. |
| Точность & Терпимость | Allows small deviations (±0,1–±0,5 мм). | Zero tolerance for deviations (meets final production specs: ±0,05 мм–±0,1 мм). |
| Стадия приложения | Early design phase (before mold/tool development). | Pre-mass production phase (after mold/tool development). |
3. What Is the Workflow: Prototypes → First Samples → Mass Production?
The relationship between prototypes and first samples is linear and sequential—each stage solves unique problems to ensure a smooth transition to mass production.
- Prototype Phase: Fix Design Issues First
- Шаг 1: Create a prototype using rapid methods (НАПРИМЕР., 3D print a plastic housing for a wireless speaker).
- Шаг 2: Test it (НАПРИМЕР., check if the housing fits internal components, verify the logo’s appearance).
- Шаг 3: Iterate: If the housing is too tight, modify the 3D model and reprint—repeat until the design is perfect.
- Исход: A validated design ready for mold/tool development.
- First Sample Phase: Fix Production Issues
- Шаг 1: Build mass production tools (НАПРИМЕР., an injection mold for the speaker housing).
- Шаг 2: Produce 1–5 first samples using the mold and final materials.
- Шаг 3: Test the samples (НАПРИМЕР., check for sink marks in the plastic, verify dimension accuracy).
- Шаг 4: Optimize: If sink marks appear, adjust injection molding temperature/pressure—repeat until samples meet specs.
- Исход: A validated production process ready for mass production.
- Mass Production Phase: Scale Consistently
- Once first samples pass all tests, start large-scale production (1,000+ единицы) with confidence—no major design or process surprises.
4. What Are Real-World Application Examples?
Across industries, prototypes and first samples follow the same workflow but with industry-specific use cases. Below are examples for three key sectors:
4.1 Потребительская электроника
- Прототип: 3D-printed plastic shell for a smartphone (tests if buttons align with the screen) + CNC-machined metal frame (tests durability).
- First Sample: Injection-molded smartphone shell (made with the final production mold) — checks for surface gloss, усадка, and fit with the metal frame.
4.2 Automotive Accessories
- Прототип: Sheet metal bracket for a car’s infotainment system (tests if it mounts securely to the dashboard).
- First Sample: Die-cast aluminum bracket (made with the final die-casting mold) — verifies mechanical strength and dimension accuracy for mass production.
4.3 Медицинские устройства
- Прототип: Resin model of a surgical forceps handle (tests ergonomics for doctors’ grip).
- First Sample: Injection-molded plastic handle (made with the final mold) — checks for aseptic compatibility (critical for medical use) and surface smoothness.
5. What Are the Pros and Cons of Each?
To make informed decisions, teams should weigh the advantages and limitations of prototypes and first samples.
5.1 Прототипы
| Плюс | Минусы |
| Бюджетный (no expensive molds/tools needed). | Not representative of mass production quality (materials/processes differ). |
| Быстрая итерация (modify 3D models in hours, не недели). | Limited to small quantities (cannot test production scalability). |
| Гибкий (test appearance, функция, or structure independently). | May not reveal production-related issues (НАПРИМЕР., mold-induced defects). |
5.2 First Samples
| Плюс | Минусы |
| Fully representative of final products (same materials/processes). | Высокая стоимость (requires upfront investment in molds/tools). |
| Reveals production flaws (НАПРИМЕР., mold errors, process inconsistencies). | Slow iteration (adjusting molds/processes takes days/weeks). |
| Validates scalability (ensures mass production can meet specs). | Only useful after design is finalized (cannot fix major design flaws). |
Перспектива Yigu Technology
В Yigu Technology, we see prototypes and first samples as “risk reducers” for product teams. Too many clients rush to mass production without validating both stages—leading to mold reworks (стоимость \(10k– )50к) or recalled products. Наш подход: We help clients build prototypes (using 3D printing/CNC) to fix design issues in 1–2 weeks, then support first sample testing by optimizing production parameters (НАПРИМЕР., injection molding speed). Например, a client in medical devices cut development time by 40% by iterating on resin prototypes first, then using our first sample testing to ensure their injection-molded parts met aseptic standards. Skipping either stage is a gamble—investing in both saves time and money long-term.
Часто задаваемые вопросы
- Can we skip prototypes and go straight to first samples?
Не рекомендуется. Prototypes fix design flaws cheaply (НАПРИМЕР., \(500 for a 3D print). Skipping them risks discovering design issues after building expensive molds (НАПРИМЕР., \)20k for an injection mold)—requiring costly mold reworks.
- Сколько времени нужно, чтобы сделать прототип против. a first sample?
Prototypes take 3–7 days (rapid methods like 3D printing). First samples take 2–4 weeks—time is needed to build molds/tools and optimize production processes.
- Do first samples need to pass the same tests as final products?
Да. First samples are tested to the same standards (НАПРИМЕР., долговечность, Точность измерения, безопасность) as mass-produced units. If a first sample fails a test, the production process must be adjusted before scaling.