What is the difference between Type 3 and Type 4?

Type 3 (powder 25-45μm) is standard for SMD up to 0402, stable process and wide reflow window. Type 4 (powder 20-38μm) for ultra-fine components (0201, 01005) and pitch <0.4mm, requires precise temperature and humidity control. Type 4 has shorter shelf-life (3-6 mesi) vs Type 3 (6-12 mesi).

How to properly store solder paste?

Store at 2-10°C in refrigerator (NOT freezer). Before use: 1) Bring to room temperature (at least 2-4 hours). 2) Mix gently for 2-3 minutes. 3) Check viscosity with viscometer. If left unused on bench >8 hours, discard (evaporation alters rheology). Always label opening date.

Does no-clean paste require washing after reflow?

No, it is designed to leave non-corrosive and transparent residues that do not compromise reliability. No-clean residues: do not conduct electricity, do not attract moisture, do not interfere with electrical tests (ICT, flying probe). Advantages: cost reduction (no washing), no risk of damaging moisture-sensitive components.

What are the critical parameters of the reflow profile?

For SAC305: 1) Preheat 150-180°C for 60-120 sec (activates flux). 2) Soak 180-200°C for 60-90 sec (homogenizes temperature). 3) Peak 240-250°C for 30-60 sec (complete melting). 4) Cooling ramp <3°C/sec (avoids thermal shocks). Measured on PCB with thermocouples, not oven temperature. Use water-soluble paste if profile is not optimizable.

Can I use lead-free paste on SnPb finishes?

Technically yes, but not recommended. SAC305 melting (217-220°C) partially dissolves SnPb creating hybrid alloys with unpredictable properties. If unavoidable: increase peak to 245-250°C, reduce time above liquidus, test thermo-mechanical reliability of joints. Better to use lead-free finish (ENIG, ImAg, OSP) for lead-free production.

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SMD Pastes

Q: How to properly store solder paste?

Store at 2-10°C in refrigerator (NOT freezer). Before use: 1) Bring to room temperature (at least 2-4 hours). 2) Mix gently for 2-3 minutes. 3) Check viscosity with viscometer. If left unused on bench >8 hours, discard (evaporation alters rheology). Always label opening date.

Q: Can I use lead-free paste on SnPb finishes?

Technically yes, but not recommended. SAC305 melting (217-220°C) partially dissolves SnPb creating hybrid alloys with unpredictable properties. If unavoidable: increase peak to 245-250°C, reduce time above liquidus, test thermo-mechanical reliability of joints. Better to use lead-free finish (ENIG, ImAg, OSP) for lead-free production.

Solder paste for SMT technology is a homogeneous suspension of metallic particles (alloy powder) in an organic vehicle containing flux and rheological additives. Its function is twofold: to allow precise deposition through stencil and to guarantee, in reflow, the formation of wetted and uniform joints. For this reason, the formulation must balance viscosity, thixotropy, stencil life and flux activity. The most common alloys are SAC (particularly SAC305), with lower silver variants (SAC0307) to reduce costs or limit pad erosion. For low temperature applications, bismuth-based alloys (e.g. 42Sn57Bi1Ag) are used, useful for heat-sensitive substrates or to reduce thermal stress. Powders are classified by particle size (Type 3: 20–45 µm; Type 4: up to ~20 µm) and selected based on component pitch (fine-pitch, µBGA, CSP). During stencil printing, the paste must maintain stability (no slump), good release from the frame and sharp deposit profiles. In reflow, the flux must activate without leaving problematic residues, guaranteeing wettability on ENIG, OSP or HASL pads and minimizing voiding phenomena, particularly under BGA and LEDs. Our no-clean formulations reduce the need for washing; water-washable versions are available for those who plan a cleaning process. Operational best practices include refrigerated storage, acclimatization to room temperature before use, control of metallic content and maintaining adequate line humidity. We provide support for defining thermal profiles (soak, peak, ramp-down) according to alloy and PCB thermal mass, as well as recommendations on stencil thickness and aperture geometry. Compliance and quality: pastes are classified J-STD-004 (flux type) and J-STD-005 (paste requirements), with batch traceability and analysis certificates on request

SMD Pastes Lead-Free

Explore our range of smd pastes lead-free, designed to ensure maximum quality and reliability in your applications.

Name	Description	Alloy
H10	H10 Halide-free and no-clean solder paste is designed to deliver robust and stable performance in automotive, LED lighting and aerospace applications. H10 solder paste can guarantee transfer efficiency greater than 90% with area ratios of 0.50 and stencil life greater than 8 hours. H10's powerful wetting characteristics eliminate NWO (Head-in-Pillow) defects and improve pad coverage on all surface finishes. H10 reduces void formation on BGA, BTC and LGA components, and offers greater electrochemical reliability on all low profile devices. H10 is halogen-free according to EN14562 and halide-free according to the current revision of the IPC J-Std-004 standard. H10 is compatible with AIM's entire line of no-clean flux chemistries. Lead-free alloys	SAC305, REL22™, REL61™
NC 257-2	NC 257-2 paste has been formulated to offer a wide process window for printability, wettability and bed-of-nails testing. Solder residues are clear and reduced in volume. It can be used in air, nitrogen and vapor-phase reflow. Tack time is high even in presence of non-optimal environmental conditions.	SAC305 - REL 61 - REL 22
M8	M8 no-clean paste is formulated for high-density electronic circuits. It is an evolution of NC 258 and, in combination with T4 particle size for both lead-free and leaded alloys, offers an effective solution for the most sophisticated applications. An innovative formulation allows consistent wettability with various processes and thermal profiles. M8 eliminates Hip defects on BGAs, minimizes voids on QFN/BTC components, offering transparent residues that can be safely left in place. Where required, these can be removed or covered with coating.	SAC305 - REL 61 - REL 22

H10

Description

H10 Halide-free and no-clean solder paste is designed to deliver robust and stable performance in automotive, LED lighting and aerospace applications. H10 solder paste can guarantee transfer efficiency greater than 90% with area ratios of 0.50 and stencil life greater than 8 hours. H10's powerful wetting characteristics eliminate NWO (Head-in-Pillow) defects and improve pad coverage on all surface finishes. H10 reduces void formation on BGA, BTC and LGA components, and offers greater electrochemical reliability on all low profile devices. H10 is halogen-free according to EN14562 and halide-free according to the current revision of the IPC J-Std-004 standard. H10 is compatible with AIM's entire line of no-clean flux chemistries. Lead-free alloys

Alloy

SAC305, REL22™, REL61™

NC 257-2

Description

NC 257-2 paste has been formulated to offer a wide process window for printability, wettability and bed-of-nails testing. Solder residues are clear and reduced in volume. It can be used in air, nitrogen and vapor-phase reflow. Tack time is high even in presence of non-optimal environmental conditions.

Alloy

SAC305 - REL 61 - REL 22

Description

M8 no-clean paste is formulated for high-density electronic circuits. It is an evolution of NC 258 and, in combination with T4 particle size for both lead-free and leaded alloys, offers an effective solution for the most sophisticated applications. An innovative formulation allows consistent wettability with various processes and thermal profiles. M8 eliminates Hip defects on BGAs, minimizes voids on QFN/BTC components, offering transparent residues that can be safely left in place. Where required, these can be removed or covered with coating.

Alloy

SAC305 - REL 61 - REL 22

Industrial Applications of SMD Pastes

Dickmann AIM pastes guarantee precise printing and reliable joints for high-density electronics

SMT Electronics

High-density PCB production: smartphones, tablets, IoT devices. Components down to 01005.

Pitch down to 0.3mm

Type 4-5 powder

No-clean residues

Automotive

Engine control units, ADAS sensors, infotainment. Thermal shock resistance -40°C/+125°C.

Void <10%

Medical

Implantable and diagnostic devices. ISO 13485 compliance, biocompatibility.

Visual cleanliness required

Biocompatibility

Batch traceability

Aerospace & Defense

Avionics, satellites, military systems. Extreme reliability in critical conditions.

X-ray inspection

Why Choose Dickmann AIM SMD Pastes

World-leading AIM technology, Italian technical support and certified reliability

Uniform Powder Distribution

AIM formulation with controlled particle size distribution for perfect printing even on pitch <0.4mm. Zero agglomerates.

Wide Reflow Profile

Extended process window: ±10°C tolerance on peak. Reduces defects from thermal variations and increases yield.

Low-Voiding <5%

Special formulations for BGA and QFN with void area <5%. Critical for automotive, medical and high-reliability.

Frequently Asked Questions

Answers to the most common questions about SMD solder pastes

SMD Pastes

SMD Pastes Lead-Free

Industrial Applications of SMD Pastes

Why Choose Dickmann AIM SMD Pastes

Uniform Powder Distribution

Wide Reflow Profile

Low-Voiding <5%

Frequently Asked Questions

What is the difference between Type 3 and Type 4?

What is the difference between Type 3 and Type 4?

How to properly store solder paste?

How to properly store solder paste?

Does no-clean paste require washing after reflow?

Does no-clean paste require washing after reflow?

What are the critical parameters of the reflow profile?

What are the critical parameters of the reflow profile?

Can I use lead-free paste on SnPb finishes?

Can I use lead-free paste on SnPb finishes?

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