HLH PROTO LTD

  There’s a misconception that fused deposition modeling (FDM) is only suitable for basic models and prototypes. In reality, FDM 3D printing is incredibly versatile and capable of producing parts for high-demand industries like automotive and aerospace. HLH Proto can efficiently deliver precise FDM 3D-printedparts for rapid prototyping. Our process is streamlined,with a standard lead time of just 6 business days (as FDM doesn't require any tooling). This efficiency ensures that our customers receive their prototypes quickly, aiding in speeding up their product development and market entry.   Why HLH Proto stands out inFDM 3D printing   HLH Proto distinguishes itself as a leader in fused deposition modeling for rapid prototyping thanks to these key factors:   Capability for large-scale production   Our facility can handle large build volumes, up to 24” x 36” x 36”, making it possible to accommodate projects of varying sizes. We pride ourselves on producing strong,

  Manufacturing time is a key consideration when bringing a design from concept to market. But it's just as important to understand the costs of rapid prototyping, even when using efficient methods like stereolithography (SLA) 3D printing. The cost and lead time of an SLA prototype can vary significantly and are influenced by several key factors. Here's a look at what can affect the cost of your rapid prototyping project.   Detailing your project   The more details you provide upfront to the rapid prototyping specialist, the better they can estimate the required lead times and give a precise quote. Clear and thorough information upfront avoids the need for constant back-and-forth communication to gather additional details about your project.   Material choices in SLA prototyping   The type of photosensitive resin used for an SLA prototype plays a big role in determining cost. Resins vary (from generic to rigid, high-toughness, and transparent types), and each h

3D printing is making strides in various sectors, and the food industry is no exception. SLS 3D printing is particularly transformative in this field, offering innovative ways to reduce costs, boost productivity, and minimize waste. This technology is not just about creating custom parts—it's also expanding into the niche of 3D-printed food, a sector that continues to grow.   The primary aim of 3D printing in the food industry is twofold: producing food items and manufacturing components. SLS 3D printing excels in these areas, particularly in fabricating durable and functional parts. This process makes it faster to manufacture custom components for food processing machinery and equipment, efficiently handling complex designs without extra costs. Moreover, SLS 3D printing's capacity for on-demand production of prototypes and final components increases efficiency.   Applications in custom serving and packaging   SLS 3D printing is redefining food packaging design. Wh